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About
What is Plant Reactome ?
Team
Scientific Advisory Board
License Agreement
Disclaimer
Staff
Content
Data Schema
Release Summary
Docs
User Guide
Developer's Zone
Graph Database
Content Service
Pathways Overview
Pathway Diagrams
Data Model
Computational Inference
Linking to Us
Citing us
Tools
Pathway Browser
Analyze Data
Species Comparison
Content Service
Community
Outreach
Events
Training
Publications
Partners
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H+
Stable Identifier
R-ALL-113529
Type
Chemical Compound [SimpleEntity]
Synonyms
hydron
Locations in the PathwayBrowser
for Species:
Actinidia chinensis
Aegilops tauschii
Aegilops umbellulata
Amborella trichopoda
Ananas comosus
Arabidopsis halleri
Arabidopsis lyrata
Arabidopsis thaliana
Arachis duranensis
Arachis hypogaea
Arachis ipaensis
Asparagus officinalis
Avena sativa
Beta vulgaris
Brachypodium distachyon
Brassica juncea
Brassica napus
Brassica oleracea
Brassica rapa
Cajanus cajan
Camelina sativa
Cannabis sativa
Cannabis sativa subsp. indica
Capsella rubella
Capsicum annuum
Chara braunii
Chenopodium quinoa
Chlamydomonas reinhardtii
Chondrus crispus
Cicer arietinum
Citrullus lanatus
Citrus clementina
Citrus sinensis
Coffea canephora
Corchorus capsularis
Corchorus olitorius
Corymbia citriodora
Cucumis melo
Cucumis sativus
Cyanidioschyzon merolae
Cynara cardunculus var. scolymus
Daucus carota
Digitaria exilis
Dioscorea rotundata
Echinochloa crus-galli
Eragrostis curvula
Eragrostis tef
Erythranthe guttata
Eucalyptus grandis
Ficus carica
Fragaria vesca
Fraxinus excelsior (European ash)
Galdieria sulphuraria
Glycine max
Glycine soja
Gossypium raimondii
Helianthus annuus
Hordeum vulgare
Humulus lupulus
Humulus lupulus var. lupulus
Ipomoea triloba
Jatropha curcas
Juglans regia
Lactuca sativa
Lathyrus sativus
Leersia perrieri
Lolium perenne
Lupinus angustifolius
Malus domestica
Manihot esculenta
Marchantia polymorpha
Medicago truncatula
Musa acuminata
Nelumbo nucifera
Nicotiana attenuata
Nymphaea colorata
Olea europaea
Olea europaea var. sylvestris
Oryza australiensis
Oryza barthii
Oryza brachyantha
Oryza glaberrima
Oryza glumaepatula
Oryza longistaminata
Oryza meridionalis
Oryza meyeriana var. granulata
Oryza minuta
Oryza nivara
Oryza officinalis
Oryza punctata
Oryza rufipogon
Oryza sativa
Oryza sativa Indica Group
Oryza sativa aus subgroup
Ostreococcus lucimarinus
Panicum hallii ("FIL2")
Panicum hallii var. hallii ("HAL2")
Papaver somniferum
Phaseolus vulgaris
Phoenix dactylifera
Phyllostachys edulis
Physcomitrella patens
Picea abies
Pinus taeda
Pistacia vera
Pisum sativum
Populus trichocarpa
Prunus avium
Prunus persica
Quercus lobata
Quercus suber
Rosa chinensis
Saccharum spontaneum
Salvia hispanica
Secale cereale
Selaginella moellendorffii
Sesamum indicum
Setaria italica
Setaria viridis
Solanum lycopersicum
Solanum tuberosum
Sorghum bicolor
Synechocystis sp. PCC 6803
Theobroma cacao
Trifolium pratense
Triticum aestivum
Triticum dicoccoides
Triticum spelta subsp. spelta
Triticum timopheevii subsp. timopheevii
Triticum turgidum
Triticum urartu
Vicia faba var. faba
Vigna angularis
Vigna radiata
Vigna unguiculata
Vitis vinifera
Zea mays
Zea mays ver5
Zoysia japonica
Expand all
Metabolism and regulation (Actinidia chinensis)
Amino acid metabolism (Actinidia chinensis)
Amino acid biosynthesis (Actinidia chinensis)
Arginine degradation (Actinidia chinensis)
Conversion of P5C to glutamate (Actinidia chinensis)
H+ [mitochondrial matrix]
Detoxification (Actinidia chinensis)
Reactive oxygen species (ROS) homeostasis (Actinidia chinensis)
Generation of superoxide radicals (Actinidia chinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Actinidia chinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Actinidia chinensis)
Superoxide dismutase mt (Actinidia chinensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Actinidia chinensis)
Mitochondrial pyruvate metabolism (Actinidia chinensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Actinidia chinensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Actinidia chinensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Actinidia chinensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Actinidia chinensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Actinidia chinensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Actinidia chinensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Actinidia chinensis)
Gravitropism under normal or artificial gravity environments (Actinidia chinensis)
Root gravitropism (Actinidia chinensis)
Root angle formation: elongation and curvature response (Actinidia chinensis)
Reactive oxygen species (ROS) homeostasis (Actinidia chinensis)
Generation of superoxide radicals (Actinidia chinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Actinidia chinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Actinidia chinensis)
Superoxide dismutase mt (Actinidia chinensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Aegilops tauschii)
Amino acid metabolism (Aegilops tauschii)
Amino acid biosynthesis (Aegilops tauschii)
Arginine degradation (Aegilops tauschii)
Conversion of P5C to glutamate (Aegilops tauschii)
H+ [mitochondrial matrix]
Detoxification (Aegilops tauschii)
Reactive oxygen species (ROS) homeostasis (Aegilops tauschii)
Generation of superoxide radicals (Aegilops tauschii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Aegilops tauschii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Aegilops tauschii)
Superoxide dismutase mt (Aegilops tauschii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Aegilops tauschii)
Mitochondrial pyruvate metabolism (Aegilops tauschii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Aegilops tauschii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Aegilops tauschii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Aegilops tauschii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Aegilops tauschii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Aegilops tauschii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Aegilops tauschii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Aegilops tauschii)
Gravitropism under normal or artificial gravity environments (Aegilops tauschii)
Root gravitropism (Aegilops tauschii)
Root angle formation: elongation and curvature response (Aegilops tauschii)
Reactive oxygen species (ROS) homeostasis (Aegilops tauschii)
Generation of superoxide radicals (Aegilops tauschii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Aegilops tauschii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Aegilops tauschii)
Superoxide dismutase mt (Aegilops tauschii)
H+ [mitochondrial matrix]
Metabolism and regulation (Aegilops umbellulata)
Amino acid metabolism (Aegilops umbellulata)
Amino acid biosynthesis (Aegilops umbellulata)
Arginine degradation (Aegilops umbellulata)
Conversion of P5C to glutamate (Aegilops umbellulata)
H+ [mitochondrial matrix]
Detoxification (Aegilops umbellulata)
Reactive oxygen species (ROS) homeostasis (Aegilops umbellulata)
Generation of superoxide radicals (Aegilops umbellulata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Aegilops umbellulata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Aegilops umbellulata)
Superoxide dismutase mt (Aegilops umbellulata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Aegilops umbellulata)
Mitochondrial pyruvate metabolism (Aegilops umbellulata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Aegilops umbellulata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Aegilops umbellulata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Aegilops umbellulata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Aegilops umbellulata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Aegilops umbellulata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Aegilops umbellulata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Aegilops umbellulata)
Gravitropism under normal or artificial gravity environments (Aegilops umbellulata)
Root gravitropism (Aegilops umbellulata)
Root angle formation: elongation and curvature response (Aegilops umbellulata)
Reactive oxygen species (ROS) homeostasis (Aegilops umbellulata)
Generation of superoxide radicals (Aegilops umbellulata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Aegilops umbellulata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Aegilops umbellulata)
Superoxide dismutase mt (Aegilops umbellulata)
H+ [mitochondrial matrix]
Metabolism and regulation (Amborella trichopoda)
Amino acid metabolism (Amborella trichopoda)
Amino acid biosynthesis (Amborella trichopoda)
Arginine degradation (Amborella trichopoda)
Conversion of P5C to glutamate (Amborella trichopoda)
H+ [mitochondrial matrix]
Detoxification (Amborella trichopoda)
Reactive oxygen species (ROS) homeostasis (Amborella trichopoda)
Generation of superoxide radicals (Amborella trichopoda)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Amborella trichopoda)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Amborella trichopoda)
Superoxide dismutase mt (Amborella trichopoda)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Amborella trichopoda)
Mitochondrial pyruvate metabolism (Amborella trichopoda)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Amborella trichopoda)
H+ [mitochondrial matrix]
TCA cycle (plant) (Amborella trichopoda)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Amborella trichopoda)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Amborella trichopoda)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Amborella trichopoda)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Amborella trichopoda)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Amborella trichopoda)
Gravitropism under normal or artificial gravity environments (Amborella trichopoda)
Root gravitropism (Amborella trichopoda)
Root angle formation: elongation and curvature response (Amborella trichopoda)
Reactive oxygen species (ROS) homeostasis (Amborella trichopoda)
Generation of superoxide radicals (Amborella trichopoda)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Amborella trichopoda)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Amborella trichopoda)
Superoxide dismutase mt (Amborella trichopoda)
H+ [mitochondrial matrix]
Metabolism and regulation (Ananas comosus)
Detoxification (Ananas comosus)
Reactive oxygen species (ROS) homeostasis (Ananas comosus)
Generation of superoxide radicals (Ananas comosus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ananas comosus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ananas comosus)
Superoxide dismutase mt (Ananas comosus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Ananas comosus)
Mitochondrial pyruvate metabolism (Ananas comosus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Ananas comosus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Ananas comosus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Ananas comosus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Ananas comosus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Ananas comosus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Ananas comosus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Ananas comosus)
Gravitropism under normal or artificial gravity environments (Ananas comosus)
Root gravitropism (Ananas comosus)
Root angle formation: elongation and curvature response (Ananas comosus)
Reactive oxygen species (ROS) homeostasis (Ananas comosus)
Generation of superoxide radicals (Ananas comosus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ananas comosus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ananas comosus)
Superoxide dismutase mt (Ananas comosus)
H+ [mitochondrial matrix]
Metabolism and regulation (Arabidopsis halleri)
Amino acid metabolism (Arabidopsis halleri)
Amino acid biosynthesis (Arabidopsis halleri)
Arginine degradation (Arabidopsis halleri)
Conversion of P5C to glutamate (Arabidopsis halleri)
H+ [mitochondrial matrix]
Detoxification (Arabidopsis halleri)
Reactive oxygen species (ROS) homeostasis (Arabidopsis halleri)
Generation of superoxide radicals (Arabidopsis halleri)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis halleri)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis halleri)
Superoxide dismutase mt (Arabidopsis halleri)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arabidopsis halleri)
Mitochondrial pyruvate metabolism (Arabidopsis halleri)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arabidopsis halleri)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arabidopsis halleri)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arabidopsis halleri)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arabidopsis halleri)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arabidopsis halleri)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arabidopsis halleri)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arabidopsis halleri)
Gravitropism under normal or artificial gravity environments (Arabidopsis halleri)
Root gravitropism (Arabidopsis halleri)
Root angle formation: elongation and curvature response (Arabidopsis halleri)
Reactive oxygen species (ROS) homeostasis (Arabidopsis halleri)
Generation of superoxide radicals (Arabidopsis halleri)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis halleri)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis halleri)
Superoxide dismutase mt (Arabidopsis halleri)
H+ [mitochondrial matrix]
Metabolism and regulation (Arabidopsis lyrata)
Amino acid metabolism (Arabidopsis lyrata)
Amino acid biosynthesis (Arabidopsis lyrata)
Arginine degradation (Arabidopsis lyrata)
Conversion of P5C to glutamate (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Detoxification (Arabidopsis lyrata)
Reactive oxygen species (ROS) homeostasis (Arabidopsis lyrata)
Generation of superoxide radicals (Arabidopsis lyrata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis lyrata)
Superoxide dismutase mt (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arabidopsis lyrata)
Mitochondrial pyruvate metabolism (Arabidopsis lyrata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arabidopsis lyrata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arabidopsis lyrata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arabidopsis lyrata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arabidopsis lyrata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arabidopsis lyrata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arabidopsis lyrata)
Gravitropism under normal or artificial gravity environments (Arabidopsis lyrata)
Root gravitropism (Arabidopsis lyrata)
Root angle formation: elongation and curvature response (Arabidopsis lyrata)
Reactive oxygen species (ROS) homeostasis (Arabidopsis lyrata)
Generation of superoxide radicals (Arabidopsis lyrata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis lyrata)
Superoxide dismutase mt (Arabidopsis lyrata)
H+ [mitochondrial matrix]
Metabolism and regulation (Arabidopsis thaliana)
Amino acid metabolism (Arabidopsis thaliana)
Amino acid biosynthesis (Arabidopsis thaliana)
Arginine degradation (Arabidopsis thaliana)
Conversion of P5C to glutamate (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Detoxification (Arabidopsis thaliana)
Reactive oxygen species (ROS) homeostasis (Arabidopsis thaliana)
Generation of superoxide radicals (Arabidopsis thaliana)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis thaliana)
Superoxide dismutase mt (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arabidopsis thaliana)
Mitochondrial pyruvate metabolism (Arabidopsis thaliana)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arabidopsis thaliana)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arabidopsis thaliana)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arabidopsis thaliana)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arabidopsis thaliana)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arabidopsis thaliana)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arabidopsis thaliana)
Gravitropism under normal or artificial gravity environments (Arabidopsis thaliana)
Root gravitropism (Arabidopsis thaliana)
Root angle formation: elongation and curvature response (Arabidopsis thaliana)
Reactive oxygen species (ROS) homeostasis (Arabidopsis thaliana)
Generation of superoxide radicals (Arabidopsis thaliana)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arabidopsis thaliana)
Superoxide dismutase mt (Arabidopsis thaliana)
H+ [mitochondrial matrix]
Metabolism and regulation (Arachis duranensis)
Amino acid metabolism (Arachis duranensis)
Amino acid biosynthesis (Arachis duranensis)
Arginine degradation (Arachis duranensis)
Conversion of P5C to glutamate (Arachis duranensis)
H+ [mitochondrial matrix]
Detoxification (Arachis duranensis)
Reactive oxygen species (ROS) homeostasis (Arachis duranensis)
Generation of superoxide radicals (Arachis duranensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis duranensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis duranensis)
Superoxide dismutase mt (Arachis duranensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arachis duranensis)
Mitochondrial pyruvate metabolism (Arachis duranensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arachis duranensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arachis duranensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arachis duranensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arachis duranensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arachis duranensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arachis duranensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arachis duranensis)
Gravitropism under normal or artificial gravity environments (Arachis duranensis)
Root gravitropism (Arachis duranensis)
Root angle formation: elongation and curvature response (Arachis duranensis)
Reactive oxygen species (ROS) homeostasis (Arachis duranensis)
Generation of superoxide radicals (Arachis duranensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis duranensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis duranensis)
Superoxide dismutase mt (Arachis duranensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Arachis hypogaea)
Amino acid metabolism (Arachis hypogaea)
Amino acid biosynthesis (Arachis hypogaea)
Arginine degradation (Arachis hypogaea)
Conversion of P5C to glutamate (Arachis hypogaea)
H+ [mitochondrial matrix]
Detoxification (Arachis hypogaea)
Reactive oxygen species (ROS) homeostasis (Arachis hypogaea)
Generation of superoxide radicals (Arachis hypogaea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis hypogaea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis hypogaea)
Superoxide dismutase mt (Arachis hypogaea)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arachis hypogaea)
Mitochondrial pyruvate metabolism (Arachis hypogaea)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arachis hypogaea)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arachis hypogaea)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arachis hypogaea)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arachis hypogaea)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arachis hypogaea)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arachis hypogaea)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arachis hypogaea)
Gravitropism under normal or artificial gravity environments (Arachis hypogaea)
Root gravitropism (Arachis hypogaea)
Root angle formation: elongation and curvature response (Arachis hypogaea)
Reactive oxygen species (ROS) homeostasis (Arachis hypogaea)
Generation of superoxide radicals (Arachis hypogaea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis hypogaea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis hypogaea)
Superoxide dismutase mt (Arachis hypogaea)
H+ [mitochondrial matrix]
Metabolism and regulation (Arachis ipaensis)
Detoxification (Arachis ipaensis)
Reactive oxygen species (ROS) homeostasis (Arachis ipaensis)
Generation of superoxide radicals (Arachis ipaensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis ipaensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis ipaensis)
Superoxide dismutase mt (Arachis ipaensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Arachis ipaensis)
Mitochondrial pyruvate metabolism (Arachis ipaensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Arachis ipaensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Arachis ipaensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Arachis ipaensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Arachis ipaensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Arachis ipaensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Arachis ipaensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Arachis ipaensis)
Gravitropism under normal or artificial gravity environments (Arachis ipaensis)
Root gravitropism (Arachis ipaensis)
Root angle formation: elongation and curvature response (Arachis ipaensis)
Reactive oxygen species (ROS) homeostasis (Arachis ipaensis)
Generation of superoxide radicals (Arachis ipaensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Arachis ipaensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Arachis ipaensis)
Superoxide dismutase mt (Arachis ipaensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Asparagus officinalis)
Amino acid metabolism (Asparagus officinalis)
Amino acid biosynthesis (Asparagus officinalis)
Arginine degradation (Asparagus officinalis)
Conversion of P5C to glutamate (Asparagus officinalis)
H+ [mitochondrial matrix]
Detoxification (Asparagus officinalis)
Reactive oxygen species (ROS) homeostasis (Asparagus officinalis)
Generation of superoxide radicals (Asparagus officinalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Asparagus officinalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Asparagus officinalis)
Superoxide dismutase mt (Asparagus officinalis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Asparagus officinalis)
Mitochondrial pyruvate metabolism (Asparagus officinalis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Asparagus officinalis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Asparagus officinalis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Asparagus officinalis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Asparagus officinalis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Asparagus officinalis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Asparagus officinalis)
Gravitropism under normal or artificial gravity environments (Asparagus officinalis)
Root gravitropism (Asparagus officinalis)
Root angle formation: elongation and curvature response (Asparagus officinalis)
Reactive oxygen species (ROS) homeostasis (Asparagus officinalis)
Generation of superoxide radicals (Asparagus officinalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Asparagus officinalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Asparagus officinalis)
Superoxide dismutase mt (Asparagus officinalis)
H+ [mitochondrial matrix]
Metabolism and regulation (Avena sativa)
Amino acid metabolism (Avena sativa)
Amino acid biosynthesis (Avena sativa)
Arginine degradation (Avena sativa)
Conversion of P5C to glutamate (Avena sativa)
H+ [mitochondrial matrix]
Detoxification (Avena sativa)
Reactive oxygen species (ROS) homeostasis (Avena sativa)
Generation of superoxide radicals (Avena sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Avena sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Avena sativa)
Superoxide dismutase mt (Avena sativa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Avena sativa)
Mitochondrial pyruvate metabolism (Avena sativa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Avena sativa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Avena sativa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Avena sativa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Avena sativa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Avena sativa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Avena sativa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Avena sativa)
Gravitropism under normal or artificial gravity environments (Avena sativa)
Root gravitropism (Avena sativa)
Root angle formation: elongation and curvature response (Avena sativa)
Reactive oxygen species (ROS) homeostasis (Avena sativa)
Generation of superoxide radicals (Avena sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Avena sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Avena sativa)
Superoxide dismutase mt (Avena sativa)
H+ [mitochondrial matrix]
Metabolism and regulation (Beta vulgaris)
Amino acid metabolism (Beta vulgaris)
Amino acid biosynthesis (Beta vulgaris)
Arginine degradation (Beta vulgaris)
Conversion of P5C to glutamate (Beta vulgaris)
H+ [mitochondrial matrix]
Detoxification (Beta vulgaris)
Reactive oxygen species (ROS) homeostasis (Beta vulgaris)
Generation of superoxide radicals (Beta vulgaris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Beta vulgaris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Beta vulgaris)
Superoxide dismutase mt (Beta vulgaris)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Beta vulgaris)
Mitochondrial pyruvate metabolism (Beta vulgaris)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Beta vulgaris)
H+ [mitochondrial matrix]
TCA cycle (plant) (Beta vulgaris)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Beta vulgaris)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Beta vulgaris)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Beta vulgaris)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Beta vulgaris)
Gravitropism under normal or artificial gravity environments (Beta vulgaris)
Root gravitropism (Beta vulgaris)
Root angle formation: elongation and curvature response (Beta vulgaris)
Reactive oxygen species (ROS) homeostasis (Beta vulgaris)
Generation of superoxide radicals (Beta vulgaris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Beta vulgaris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Beta vulgaris)
Superoxide dismutase mt (Beta vulgaris)
H+ [mitochondrial matrix]
Metabolism and regulation (Brachypodium distachyon)
Amino acid metabolism (Brachypodium distachyon)
Amino acid biosynthesis (Brachypodium distachyon)
Arginine degradation (Brachypodium distachyon)
Conversion of P5C to glutamate (Brachypodium distachyon)
H+ [mitochondrial matrix]
Detoxification (Brachypodium distachyon)
Reactive oxygen species (ROS) homeostasis (Brachypodium distachyon)
Generation of superoxide radicals (Brachypodium distachyon)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brachypodium distachyon)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brachypodium distachyon)
Superoxide dismutase mt (Brachypodium distachyon)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Brachypodium distachyon)
Mitochondrial pyruvate metabolism (Brachypodium distachyon)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Brachypodium distachyon)
H+ [mitochondrial matrix]
TCA cycle (plant) (Brachypodium distachyon)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Brachypodium distachyon)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Brachypodium distachyon)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Brachypodium distachyon)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Brachypodium distachyon)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Brachypodium distachyon)
Gravitropism under normal or artificial gravity environments (Brachypodium distachyon)
Root gravitropism (Brachypodium distachyon)
Root angle formation: elongation and curvature response (Brachypodium distachyon)
Reactive oxygen species (ROS) homeostasis (Brachypodium distachyon)
Generation of superoxide radicals (Brachypodium distachyon)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brachypodium distachyon)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brachypodium distachyon)
Superoxide dismutase mt (Brachypodium distachyon)
H+ [mitochondrial matrix]
Metabolism and regulation (Brassica juncea)
Amino acid metabolism (Brassica juncea)
Amino acid biosynthesis (Brassica juncea)
Arginine degradation (Brassica juncea)
Conversion of P5C to glutamate (Brassica juncea)
H+ [mitochondrial matrix]
Detoxification (Brassica juncea)
Reactive oxygen species (ROS) homeostasis (Brassica juncea)
Generation of superoxide radicals (Brassica juncea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica juncea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica juncea)
Superoxide dismutase mt (Brassica juncea)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Brassica juncea)
Mitochondrial pyruvate metabolism (Brassica juncea)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Brassica juncea)
H+ [mitochondrial matrix]
TCA cycle (plant) (Brassica juncea)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Brassica juncea)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Brassica juncea)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Brassica juncea)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Brassica juncea)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Brassica juncea)
Gravitropism under normal or artificial gravity environments (Brassica juncea)
Root gravitropism (Brassica juncea)
Root angle formation: elongation and curvature response (Brassica juncea)
Reactive oxygen species (ROS) homeostasis (Brassica juncea)
Generation of superoxide radicals (Brassica juncea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica juncea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica juncea)
Superoxide dismutase mt (Brassica juncea)
H+ [mitochondrial matrix]
Metabolism and regulation (Brassica napus)
Amino acid metabolism (Brassica napus)
Amino acid biosynthesis (Brassica napus)
Arginine degradation (Brassica napus)
Conversion of P5C to glutamate (Brassica napus)
H+ [mitochondrial matrix]
Detoxification (Brassica napus)
Reactive oxygen species (ROS) homeostasis (Brassica napus)
Generation of superoxide radicals (Brassica napus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica napus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica napus)
Superoxide dismutase mt (Brassica napus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Brassica napus)
Mitochondrial pyruvate metabolism (Brassica napus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Brassica napus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Brassica napus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Brassica napus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Brassica napus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Brassica napus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Brassica napus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Brassica napus)
Gravitropism under normal or artificial gravity environments (Brassica napus)
Root gravitropism (Brassica napus)
Root angle formation: elongation and curvature response (Brassica napus)
Reactive oxygen species (ROS) homeostasis (Brassica napus)
Generation of superoxide radicals (Brassica napus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica napus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica napus)
Superoxide dismutase mt (Brassica napus)
H+ [mitochondrial matrix]
Metabolism and regulation (Brassica oleracea)
Amino acid metabolism (Brassica oleracea)
Amino acid biosynthesis (Brassica oleracea)
Arginine degradation (Brassica oleracea)
Conversion of P5C to glutamate (Brassica oleracea)
H+ [mitochondrial matrix]
Detoxification (Brassica oleracea)
Reactive oxygen species (ROS) homeostasis (Brassica oleracea)
Generation of superoxide radicals (Brassica oleracea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica oleracea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica oleracea)
Superoxide dismutase mt (Brassica oleracea)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Brassica oleracea)
Mitochondrial pyruvate metabolism (Brassica oleracea)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Brassica oleracea)
H+ [mitochondrial matrix]
TCA cycle (plant) (Brassica oleracea)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Brassica oleracea)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Brassica oleracea)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Brassica oleracea)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Brassica oleracea)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Brassica oleracea)
Gravitropism under normal or artificial gravity environments (Brassica oleracea)
Root gravitropism (Brassica oleracea)
Root angle formation: elongation and curvature response (Brassica oleracea)
Reactive oxygen species (ROS) homeostasis (Brassica oleracea)
Generation of superoxide radicals (Brassica oleracea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica oleracea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica oleracea)
Superoxide dismutase mt (Brassica oleracea)
H+ [mitochondrial matrix]
Metabolism and regulation (Brassica rapa)
Amino acid metabolism (Brassica rapa)
Amino acid biosynthesis (Brassica rapa)
Arginine degradation (Brassica rapa)
Conversion of P5C to glutamate (Brassica rapa)
H+ [mitochondrial matrix]
Detoxification (Brassica rapa)
Reactive oxygen species (ROS) homeostasis (Brassica rapa)
Generation of superoxide radicals (Brassica rapa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica rapa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica rapa)
Superoxide dismutase mt (Brassica rapa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Brassica rapa)
Mitochondrial pyruvate metabolism (Brassica rapa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Brassica rapa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Brassica rapa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Brassica rapa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Brassica rapa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Brassica rapa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Brassica rapa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Brassica rapa)
Gravitropism under normal or artificial gravity environments (Brassica rapa)
Root gravitropism (Brassica rapa)
Root angle formation: elongation and curvature response (Brassica rapa)
Reactive oxygen species (ROS) homeostasis (Brassica rapa)
Generation of superoxide radicals (Brassica rapa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Brassica rapa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Brassica rapa)
Superoxide dismutase mt (Brassica rapa)
H+ [mitochondrial matrix]
Metabolism and regulation (Cajanus cajan)
Amino acid metabolism (Cajanus cajan)
Amino acid biosynthesis (Cajanus cajan)
Arginine degradation (Cajanus cajan)
Conversion of P5C to glutamate (Cajanus cajan)
H+ [mitochondrial matrix]
Detoxification (Cajanus cajan)
Reactive oxygen species (ROS) homeostasis (Cajanus cajan)
Generation of superoxide radicals (Cajanus cajan)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cajanus cajan)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cajanus cajan)
Superoxide dismutase mt (Cajanus cajan)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cajanus cajan)
Mitochondrial pyruvate metabolism (Cajanus cajan)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cajanus cajan)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cajanus cajan)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cajanus cajan)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cajanus cajan)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cajanus cajan)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cajanus cajan)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cajanus cajan)
Gravitropism under normal or artificial gravity environments (Cajanus cajan)
Root gravitropism (Cajanus cajan)
Root angle formation: elongation and curvature response (Cajanus cajan)
Reactive oxygen species (ROS) homeostasis (Cajanus cajan)
Generation of superoxide radicals (Cajanus cajan)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cajanus cajan)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cajanus cajan)
Superoxide dismutase mt (Cajanus cajan)
H+ [mitochondrial matrix]
Metabolism and regulation (Camelina sativa)
Amino acid metabolism (Camelina sativa)
Amino acid biosynthesis (Camelina sativa)
Arginine degradation (Camelina sativa)
Conversion of P5C to glutamate (Camelina sativa)
H+ [mitochondrial matrix]
Detoxification (Camelina sativa)
Reactive oxygen species (ROS) homeostasis (Camelina sativa)
Generation of superoxide radicals (Camelina sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Camelina sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Camelina sativa)
Superoxide dismutase mt (Camelina sativa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Camelina sativa)
Mitochondrial pyruvate metabolism (Camelina sativa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Camelina sativa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Camelina sativa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Camelina sativa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Camelina sativa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Camelina sativa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Camelina sativa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Camelina sativa)
Gravitropism under normal or artificial gravity environments (Camelina sativa)
Root gravitropism (Camelina sativa)
Root angle formation: elongation and curvature response (Camelina sativa)
Reactive oxygen species (ROS) homeostasis (Camelina sativa)
Generation of superoxide radicals (Camelina sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Camelina sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Camelina sativa)
Superoxide dismutase mt (Camelina sativa)
H+ [mitochondrial matrix]
Metabolism and regulation (Cannabis sativa)
Amino acid metabolism (Cannabis sativa)
Amino acid biosynthesis (Cannabis sativa)
Arginine degradation (Cannabis sativa)
Conversion of P5C to glutamate (Cannabis sativa)
H+ [mitochondrial matrix]
Detoxification (Cannabis sativa)
Reactive oxygen species (ROS) homeostasis (Cannabis sativa)
Generation of superoxide radicals (Cannabis sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cannabis sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cannabis sativa)
Superoxide dismutase mt (Cannabis sativa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cannabis sativa)
Mitochondrial pyruvate metabolism (Cannabis sativa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cannabis sativa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cannabis sativa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cannabis sativa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cannabis sativa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cannabis sativa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cannabis sativa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cannabis sativa)
Gravitropism under normal or artificial gravity environments (Cannabis sativa)
Root gravitropism (Cannabis sativa)
Root angle formation: elongation and curvature response (Cannabis sativa)
Reactive oxygen species (ROS) homeostasis (Cannabis sativa)
Generation of superoxide radicals (Cannabis sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cannabis sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cannabis sativa)
Superoxide dismutase mt (Cannabis sativa)
H+ [mitochondrial matrix]
Metabolism and regulation (Cannabis sativa subsp. indica)
Detoxification (Cannabis sativa subsp. indica)
Reactive oxygen species (ROS) homeostasis (Cannabis sativa subsp. indica)
Generation of superoxide radicals (Cannabis sativa subsp. indica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cannabis sativa subsp. indica)
Superoxide dismutase mt (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cannabis sativa subsp. indica)
Mitochondrial pyruvate metabolism (Cannabis sativa subsp. indica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cannabis sativa subsp. indica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cannabis sativa subsp. indica)
Gravitropism under normal or artificial gravity environments (Cannabis sativa subsp. indica)
Root gravitropism (Cannabis sativa subsp. indica)
Root angle formation: elongation and curvature response (Cannabis sativa subsp. indica)
Reactive oxygen species (ROS) homeostasis (Cannabis sativa subsp. indica)
Generation of superoxide radicals (Cannabis sativa subsp. indica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cannabis sativa subsp. indica)
Superoxide dismutase mt (Cannabis sativa subsp. indica)
H+ [mitochondrial matrix]
Metabolism and regulation (Capsella rubella)
Detoxification (Capsella rubella)
Reactive oxygen species (ROS) homeostasis (Capsella rubella)
Generation of superoxide radicals (Capsella rubella)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Capsella rubella)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Capsella rubella)
Superoxide dismutase mt (Capsella rubella)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Capsella rubella)
Mitochondrial pyruvate metabolism (Capsella rubella)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Capsella rubella)
H+ [mitochondrial matrix]
TCA cycle (plant) (Capsella rubella)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Capsella rubella)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Capsella rubella)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Capsella rubella)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Capsella rubella)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Capsella rubella)
Gravitropism under normal or artificial gravity environments (Capsella rubella)
Root gravitropism (Capsella rubella)
Root angle formation: elongation and curvature response (Capsella rubella)
Reactive oxygen species (ROS) homeostasis (Capsella rubella)
Generation of superoxide radicals (Capsella rubella)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Capsella rubella)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Capsella rubella)
Superoxide dismutase mt (Capsella rubella)
H+ [mitochondrial matrix]
Metabolism and regulation (Capsicum annuum)
Amino acid metabolism (Capsicum annuum)
Amino acid biosynthesis (Capsicum annuum)
Arginine degradation (Capsicum annuum)
Conversion of P5C to glutamate (Capsicum annuum)
H+ [mitochondrial matrix]
Detoxification (Capsicum annuum)
Reactive oxygen species (ROS) homeostasis (Capsicum annuum)
Generation of superoxide radicals (Capsicum annuum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Capsicum annuum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Capsicum annuum)
Superoxide dismutase mt (Capsicum annuum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Capsicum annuum)
Mitochondrial pyruvate metabolism (Capsicum annuum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Capsicum annuum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Capsicum annuum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Capsicum annuum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Capsicum annuum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Capsicum annuum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Capsicum annuum)
Gravitropism under normal or artificial gravity environments (Capsicum annuum)
Root gravitropism (Capsicum annuum)
Root angle formation: elongation and curvature response (Capsicum annuum)
Reactive oxygen species (ROS) homeostasis (Capsicum annuum)
Generation of superoxide radicals (Capsicum annuum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Capsicum annuum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Capsicum annuum)
Superoxide dismutase mt (Capsicum annuum)
H+ [mitochondrial matrix]
Metabolism and regulation (Chara braunii)
Detoxification (Chara braunii)
Reactive oxygen species (ROS) homeostasis (Chara braunii)
Removal of superoxide radicals (Chara braunii)
Superoxide dismutase mt (Chara braunii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Chara braunii)
Mitochondrial pyruvate metabolism (Chara braunii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Chara braunii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Chara braunii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Chara braunii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Chara braunii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Chara braunii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Chara braunii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Chara braunii)
Gravitropism under normal or artificial gravity environments (Chara braunii)
Root gravitropism (Chara braunii)
Root angle formation: elongation and curvature response (Chara braunii)
Reactive oxygen species (ROS) homeostasis (Chara braunii)
Removal of superoxide radicals (Chara braunii)
Superoxide dismutase mt (Chara braunii)
H+ [mitochondrial matrix]
Metabolism and regulation (Chenopodium quinoa)
Amino acid metabolism (Chenopodium quinoa)
Amino acid biosynthesis (Chenopodium quinoa)
Arginine degradation (Chenopodium quinoa)
Conversion of P5C to glutamate (Chenopodium quinoa)
H+ [mitochondrial matrix]
Detoxification (Chenopodium quinoa)
Reactive oxygen species (ROS) homeostasis (Chenopodium quinoa)
Generation of superoxide radicals (Chenopodium quinoa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Chenopodium quinoa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Chenopodium quinoa)
Superoxide dismutase mt (Chenopodium quinoa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Chenopodium quinoa)
Mitochondrial pyruvate metabolism (Chenopodium quinoa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Chenopodium quinoa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Chenopodium quinoa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Chenopodium quinoa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Chenopodium quinoa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Chenopodium quinoa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Chenopodium quinoa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Chenopodium quinoa)
Gravitropism under normal or artificial gravity environments (Chenopodium quinoa)
Root gravitropism (Chenopodium quinoa)
Root angle formation: elongation and curvature response (Chenopodium quinoa)
Reactive oxygen species (ROS) homeostasis (Chenopodium quinoa)
Generation of superoxide radicals (Chenopodium quinoa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Chenopodium quinoa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Chenopodium quinoa)
Superoxide dismutase mt (Chenopodium quinoa)
H+ [mitochondrial matrix]
Metabolism and regulation (Chlamydomonas reinhardtii)
Amino acid metabolism (Chlamydomonas reinhardtii)
Amino acid biosynthesis (Chlamydomonas reinhardtii)
Arginine degradation (Chlamydomonas reinhardtii)
Conversion of P5C to glutamate (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
Detoxification (Chlamydomonas reinhardtii)
Reactive oxygen species (ROS) homeostasis (Chlamydomonas reinhardtii)
Removal of superoxide radicals (Chlamydomonas reinhardtii)
Superoxide dismutase mt (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Chlamydomonas reinhardtii)
Mitochondrial pyruvate metabolism (Chlamydomonas reinhardtii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Chlamydomonas reinhardtii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Chlamydomonas reinhardtii)
Gravitropism under normal or artificial gravity environments (Chlamydomonas reinhardtii)
Root gravitropism (Chlamydomonas reinhardtii)
Root angle formation: elongation and curvature response (Chlamydomonas reinhardtii)
Reactive oxygen species (ROS) homeostasis (Chlamydomonas reinhardtii)
Removal of superoxide radicals (Chlamydomonas reinhardtii)
Superoxide dismutase mt (Chlamydomonas reinhardtii)
H+ [mitochondrial matrix]
Metabolism and regulation (Chondrus crispus)
Generation of precursor metabolites and energy (Chondrus crispus)
Mitochondrial pyruvate metabolism (Chondrus crispus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Chondrus crispus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Chondrus crispus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Chondrus crispus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Chondrus crispus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Chondrus crispus)
H+ [mitochondrial matrix]
Metabolism and regulation (Cicer arietinum)
Detoxification (Cicer arietinum)
Reactive oxygen species (ROS) homeostasis (Cicer arietinum)
Generation of superoxide radicals (Cicer arietinum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cicer arietinum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cicer arietinum)
Superoxide dismutase mt (Cicer arietinum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cicer arietinum)
Mitochondrial pyruvate metabolism (Cicer arietinum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cicer arietinum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cicer arietinum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cicer arietinum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cicer arietinum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cicer arietinum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cicer arietinum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cicer arietinum)
Gravitropism under normal or artificial gravity environments (Cicer arietinum)
Root gravitropism (Cicer arietinum)
Root angle formation: elongation and curvature response (Cicer arietinum)
Reactive oxygen species (ROS) homeostasis (Cicer arietinum)
Generation of superoxide radicals (Cicer arietinum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cicer arietinum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cicer arietinum)
Superoxide dismutase mt (Cicer arietinum)
H+ [mitochondrial matrix]
Metabolism and regulation (Citrullus lanatus)
Detoxification (Citrullus lanatus)
Reactive oxygen species (ROS) homeostasis (Citrullus lanatus)
Generation of superoxide radicals (Citrullus lanatus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrullus lanatus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrullus lanatus)
Superoxide dismutase mt (Citrullus lanatus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Citrullus lanatus)
Mitochondrial pyruvate metabolism (Citrullus lanatus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Citrullus lanatus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Citrullus lanatus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Citrullus lanatus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Citrullus lanatus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Citrullus lanatus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Citrullus lanatus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Citrullus lanatus)
Gravitropism under normal or artificial gravity environments (Citrullus lanatus)
Root gravitropism (Citrullus lanatus)
Root angle formation: elongation and curvature response (Citrullus lanatus)
Reactive oxygen species (ROS) homeostasis (Citrullus lanatus)
Generation of superoxide radicals (Citrullus lanatus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrullus lanatus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrullus lanatus)
Superoxide dismutase mt (Citrullus lanatus)
H+ [mitochondrial matrix]
Metabolism and regulation (Citrus clementina)
Amino acid metabolism (Citrus clementina)
Amino acid biosynthesis (Citrus clementina)
Arginine degradation (Citrus clementina)
Conversion of P5C to glutamate (Citrus clementina)
H+ [mitochondrial matrix]
Detoxification (Citrus clementina)
Reactive oxygen species (ROS) homeostasis (Citrus clementina)
Generation of superoxide radicals (Citrus clementina)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrus clementina)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrus clementina)
Superoxide dismutase mt (Citrus clementina)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Citrus clementina)
Mitochondrial pyruvate metabolism (Citrus clementina)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Citrus clementina)
H+ [mitochondrial matrix]
TCA cycle (plant) (Citrus clementina)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Citrus clementina)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Citrus clementina)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Citrus clementina)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Citrus clementina)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Citrus clementina)
Gravitropism under normal or artificial gravity environments (Citrus clementina)
Root gravitropism (Citrus clementina)
Root angle formation: elongation and curvature response (Citrus clementina)
Reactive oxygen species (ROS) homeostasis (Citrus clementina)
Generation of superoxide radicals (Citrus clementina)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrus clementina)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrus clementina)
Superoxide dismutase mt (Citrus clementina)
H+ [mitochondrial matrix]
Metabolism and regulation (Citrus sinensis)
Detoxification (Citrus sinensis)
Reactive oxygen species (ROS) homeostasis (Citrus sinensis)
Generation of superoxide radicals (Citrus sinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrus sinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrus sinensis)
Superoxide dismutase mt (Citrus sinensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Citrus sinensis)
Mitochondrial pyruvate metabolism (Citrus sinensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Citrus sinensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Citrus sinensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Citrus sinensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Citrus sinensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Citrus sinensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Citrus sinensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Citrus sinensis)
Gravitropism under normal or artificial gravity environments (Citrus sinensis)
Root gravitropism (Citrus sinensis)
Root angle formation: elongation and curvature response (Citrus sinensis)
Reactive oxygen species (ROS) homeostasis (Citrus sinensis)
Generation of superoxide radicals (Citrus sinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Citrus sinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Citrus sinensis)
Superoxide dismutase mt (Citrus sinensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Coffea canephora)
Amino acid metabolism (Coffea canephora)
Amino acid biosynthesis (Coffea canephora)
Arginine degradation (Coffea canephora)
Conversion of P5C to glutamate (Coffea canephora)
H+ [mitochondrial matrix]
Detoxification (Coffea canephora)
Reactive oxygen species (ROS) homeostasis (Coffea canephora)
Generation of superoxide radicals (Coffea canephora)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Coffea canephora)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Coffea canephora)
Superoxide dismutase mt (Coffea canephora)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Coffea canephora)
Mitochondrial pyruvate metabolism (Coffea canephora)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Coffea canephora)
H+ [mitochondrial matrix]
TCA cycle (plant) (Coffea canephora)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Coffea canephora)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Coffea canephora)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Coffea canephora)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Coffea canephora)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Coffea canephora)
Gravitropism under normal or artificial gravity environments (Coffea canephora)
Root gravitropism (Coffea canephora)
Root angle formation: elongation and curvature response (Coffea canephora)
Reactive oxygen species (ROS) homeostasis (Coffea canephora)
Generation of superoxide radicals (Coffea canephora)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Coffea canephora)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Coffea canephora)
Superoxide dismutase mt (Coffea canephora)
H+ [mitochondrial matrix]
Metabolism and regulation (Corchorus capsularis)
Amino acid metabolism (Corchorus capsularis)
Amino acid biosynthesis (Corchorus capsularis)
Arginine degradation (Corchorus capsularis)
Conversion of P5C to glutamate (Corchorus capsularis)
H+ [mitochondrial matrix]
Detoxification (Corchorus capsularis)
Reactive oxygen species (ROS) homeostasis (Corchorus capsularis)
Generation of superoxide radicals (Corchorus capsularis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corchorus capsularis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corchorus capsularis)
Superoxide dismutase mt (Corchorus capsularis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Corchorus capsularis)
Mitochondrial pyruvate metabolism (Corchorus capsularis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Corchorus capsularis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Corchorus capsularis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Corchorus capsularis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Corchorus capsularis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Corchorus capsularis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Corchorus capsularis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Corchorus capsularis)
Gravitropism under normal or artificial gravity environments (Corchorus capsularis)
Root gravitropism (Corchorus capsularis)
Root angle formation: elongation and curvature response (Corchorus capsularis)
Reactive oxygen species (ROS) homeostasis (Corchorus capsularis)
Generation of superoxide radicals (Corchorus capsularis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corchorus capsularis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corchorus capsularis)
Superoxide dismutase mt (Corchorus capsularis)
H+ [mitochondrial matrix]
Metabolism and regulation (Corchorus olitorius)
Detoxification (Corchorus olitorius)
Reactive oxygen species (ROS) homeostasis (Corchorus olitorius)
Generation of superoxide radicals (Corchorus olitorius)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corchorus olitorius)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corchorus olitorius)
Superoxide dismutase mt (Corchorus olitorius)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Corchorus olitorius)
Mitochondrial pyruvate metabolism (Corchorus olitorius)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Corchorus olitorius)
H+ [mitochondrial matrix]
TCA cycle (plant) (Corchorus olitorius)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Corchorus olitorius)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Corchorus olitorius)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Corchorus olitorius)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Corchorus olitorius)
Gravitropism under normal or artificial gravity environments (Corchorus olitorius)
Root gravitropism (Corchorus olitorius)
Root angle formation: elongation and curvature response (Corchorus olitorius)
Reactive oxygen species (ROS) homeostasis (Corchorus olitorius)
Generation of superoxide radicals (Corchorus olitorius)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corchorus olitorius)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corchorus olitorius)
Superoxide dismutase mt (Corchorus olitorius)
H+ [mitochondrial matrix]
Metabolism and regulation (Corymbia citriodora)
Amino acid metabolism (Corymbia citriodora)
Amino acid biosynthesis (Corymbia citriodora)
Arginine degradation (Corymbia citriodora)
Conversion of P5C to glutamate (Corymbia citriodora)
H+ [mitochondrial matrix]
Detoxification (Corymbia citriodora)
Reactive oxygen species (ROS) homeostasis (Corymbia citriodora)
Generation of superoxide radicals (Corymbia citriodora)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corymbia citriodora)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corymbia citriodora)
Superoxide dismutase mt (Corymbia citriodora)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Corymbia citriodora)
Mitochondrial pyruvate metabolism (Corymbia citriodora)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Corymbia citriodora)
H+ [mitochondrial matrix]
TCA cycle (plant) (Corymbia citriodora)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Corymbia citriodora)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Corymbia citriodora)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Corymbia citriodora)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Corymbia citriodora)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Corymbia citriodora)
Gravitropism under normal or artificial gravity environments (Corymbia citriodora)
Root gravitropism (Corymbia citriodora)
Root angle formation: elongation and curvature response (Corymbia citriodora)
Reactive oxygen species (ROS) homeostasis (Corymbia citriodora)
Generation of superoxide radicals (Corymbia citriodora)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Corymbia citriodora)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Corymbia citriodora)
Superoxide dismutase mt (Corymbia citriodora)
H+ [mitochondrial matrix]
Metabolism and regulation (Cucumis melo)
Amino acid metabolism (Cucumis melo)
Amino acid biosynthesis (Cucumis melo)
Arginine degradation (Cucumis melo)
Conversion of P5C to glutamate (Cucumis melo)
H+ [mitochondrial matrix]
Detoxification (Cucumis melo)
Reactive oxygen species (ROS) homeostasis (Cucumis melo)
Generation of superoxide radicals (Cucumis melo)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cucumis melo)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cucumis melo)
Superoxide dismutase mt (Cucumis melo)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cucumis melo)
Mitochondrial pyruvate metabolism (Cucumis melo)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cucumis melo)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cucumis melo)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cucumis melo)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cucumis melo)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cucumis melo)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cucumis melo)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cucumis melo)
Gravitropism under normal or artificial gravity environments (Cucumis melo)
Root gravitropism (Cucumis melo)
Root angle formation: elongation and curvature response (Cucumis melo)
Reactive oxygen species (ROS) homeostasis (Cucumis melo)
Generation of superoxide radicals (Cucumis melo)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cucumis melo)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cucumis melo)
Superoxide dismutase mt (Cucumis melo)
H+ [mitochondrial matrix]
Metabolism and regulation (Cucumis sativus)
Amino acid metabolism (Cucumis sativus)
Amino acid biosynthesis (Cucumis sativus)
Arginine degradation (Cucumis sativus)
Conversion of P5C to glutamate (Cucumis sativus)
H+ [mitochondrial matrix]
Detoxification (Cucumis sativus)
Reactive oxygen species (ROS) homeostasis (Cucumis sativus)
Generation of superoxide radicals (Cucumis sativus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cucumis sativus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cucumis sativus)
Superoxide dismutase mt (Cucumis sativus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cucumis sativus)
Mitochondrial pyruvate metabolism (Cucumis sativus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cucumis sativus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cucumis sativus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cucumis sativus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cucumis sativus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cucumis sativus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cucumis sativus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cucumis sativus)
Gravitropism under normal or artificial gravity environments (Cucumis sativus)
Root gravitropism (Cucumis sativus)
Root angle formation: elongation and curvature response (Cucumis sativus)
Reactive oxygen species (ROS) homeostasis (Cucumis sativus)
Generation of superoxide radicals (Cucumis sativus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cucumis sativus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cucumis sativus)
Superoxide dismutase mt (Cucumis sativus)
H+ [mitochondrial matrix]
Metabolism and regulation (Cyanidioschyzon merolae)
Detoxification (Cyanidioschyzon merolae)
Reactive oxygen species (ROS) homeostasis (Cyanidioschyzon merolae)
Removal of superoxide radicals (Cyanidioschyzon merolae)
Superoxide dismutase mt (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cyanidioschyzon merolae)
Mitochondrial pyruvate metabolism (Cyanidioschyzon merolae)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cyanidioschyzon merolae)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cyanidioschyzon merolae)
Gravitropism under normal or artificial gravity environments (Cyanidioschyzon merolae)
Root gravitropism (Cyanidioschyzon merolae)
Root angle formation: elongation and curvature response (Cyanidioschyzon merolae)
Reactive oxygen species (ROS) homeostasis (Cyanidioschyzon merolae)
Removal of superoxide radicals (Cyanidioschyzon merolae)
Superoxide dismutase mt (Cyanidioschyzon merolae)
H+ [mitochondrial matrix]
Metabolism and regulation (Cynara cardunculus var. scolymus)
Amino acid metabolism (Cynara cardunculus var. scolymus)
Amino acid biosynthesis (Cynara cardunculus var. scolymus)
Arginine degradation (Cynara cardunculus var. scolymus)
Conversion of P5C to glutamate (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Detoxification (Cynara cardunculus var. scolymus)
Reactive oxygen species (ROS) homeostasis (Cynara cardunculus var. scolymus)
Generation of superoxide radicals (Cynara cardunculus var. scolymus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cynara cardunculus var. scolymus)
Superoxide dismutase mt (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Cynara cardunculus var. scolymus)
Mitochondrial pyruvate metabolism (Cynara cardunculus var. scolymus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Cynara cardunculus var. scolymus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Cynara cardunculus var. scolymus)
Gravitropism under normal or artificial gravity environments (Cynara cardunculus var. scolymus)
Root gravitropism (Cynara cardunculus var. scolymus)
Root angle formation: elongation and curvature response (Cynara cardunculus var. scolymus)
Reactive oxygen species (ROS) homeostasis (Cynara cardunculus var. scolymus)
Generation of superoxide radicals (Cynara cardunculus var. scolymus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Cynara cardunculus var. scolymus)
Superoxide dismutase mt (Cynara cardunculus var. scolymus)
H+ [mitochondrial matrix]
Metabolism and regulation (Daucus carota)
Amino acid metabolism (Daucus carota)
Amino acid biosynthesis (Daucus carota)
Arginine degradation (Daucus carota)
Conversion of P5C to glutamate (Daucus carota)
H+ [mitochondrial matrix]
Detoxification (Daucus carota)
Reactive oxygen species (ROS) homeostasis (Daucus carota)
Generation of superoxide radicals (Daucus carota)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Daucus carota)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Daucus carota)
Superoxide dismutase mt (Daucus carota)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Daucus carota)
Mitochondrial pyruvate metabolism (Daucus carota)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Daucus carota)
H+ [mitochondrial matrix]
TCA cycle (plant) (Daucus carota)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Daucus carota)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Daucus carota)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Daucus carota)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Daucus carota)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Daucus carota)
Gravitropism under normal or artificial gravity environments (Daucus carota)
Root gravitropism (Daucus carota)
Root angle formation: elongation and curvature response (Daucus carota)
Reactive oxygen species (ROS) homeostasis (Daucus carota)
Generation of superoxide radicals (Daucus carota)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Daucus carota)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Daucus carota)
Superoxide dismutase mt (Daucus carota)
H+ [mitochondrial matrix]
Metabolism and regulation (Digitaria exilis)
Amino acid metabolism (Digitaria exilis)
Amino acid biosynthesis (Digitaria exilis)
Arginine degradation (Digitaria exilis)
Conversion of P5C to glutamate (Digitaria exilis)
H+ [mitochondrial matrix]
Detoxification (Digitaria exilis)
Reactive oxygen species (ROS) homeostasis (Digitaria exilis)
Generation of superoxide radicals (Digitaria exilis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Digitaria exilis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Digitaria exilis)
Superoxide dismutase mt (Digitaria exilis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Digitaria exilis)
Mitochondrial pyruvate metabolism (Digitaria exilis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Digitaria exilis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Digitaria exilis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Digitaria exilis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Digitaria exilis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Digitaria exilis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Digitaria exilis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Digitaria exilis)
Gravitropism under normal or artificial gravity environments (Digitaria exilis)
Root gravitropism (Digitaria exilis)
Root angle formation: elongation and curvature response (Digitaria exilis)
Reactive oxygen species (ROS) homeostasis (Digitaria exilis)
Generation of superoxide radicals (Digitaria exilis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Digitaria exilis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Digitaria exilis)
Superoxide dismutase mt (Digitaria exilis)
H+ [mitochondrial matrix]
Metabolism and regulation (Dioscorea rotundata)
Amino acid metabolism (Dioscorea rotundata)
Amino acid biosynthesis (Dioscorea rotundata)
Arginine degradation (Dioscorea rotundata)
Conversion of P5C to glutamate (Dioscorea rotundata)
H+ [mitochondrial matrix]
Detoxification (Dioscorea rotundata)
Reactive oxygen species (ROS) homeostasis (Dioscorea rotundata)
Generation of superoxide radicals (Dioscorea rotundata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Dioscorea rotundata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Dioscorea rotundata)
Superoxide dismutase mt (Dioscorea rotundata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Dioscorea rotundata)
Mitochondrial pyruvate metabolism (Dioscorea rotundata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Dioscorea rotundata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Dioscorea rotundata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Dioscorea rotundata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Dioscorea rotundata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Dioscorea rotundata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Dioscorea rotundata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Dioscorea rotundata)
Gravitropism under normal or artificial gravity environments (Dioscorea rotundata)
Root gravitropism (Dioscorea rotundata)
Root angle formation: elongation and curvature response (Dioscorea rotundata)
Reactive oxygen species (ROS) homeostasis (Dioscorea rotundata)
Generation of superoxide radicals (Dioscorea rotundata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Dioscorea rotundata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Dioscorea rotundata)
Superoxide dismutase mt (Dioscorea rotundata)
H+ [mitochondrial matrix]
Metabolism and regulation (Echinochloa crus-galli)
Amino acid metabolism (Echinochloa crus-galli)
Amino acid biosynthesis (Echinochloa crus-galli)
Arginine degradation (Echinochloa crus-galli)
Conversion of P5C to glutamate (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Detoxification (Echinochloa crus-galli)
Reactive oxygen species (ROS) homeostasis (Echinochloa crus-galli)
Generation of superoxide radicals (Echinochloa crus-galli)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Echinochloa crus-galli)
Superoxide dismutase mt (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Echinochloa crus-galli)
Mitochondrial pyruvate metabolism (Echinochloa crus-galli)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Echinochloa crus-galli)
H+ [mitochondrial matrix]
TCA cycle (plant) (Echinochloa crus-galli)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Echinochloa crus-galli)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Echinochloa crus-galli)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Echinochloa crus-galli)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Echinochloa crus-galli)
Gravitropism under normal or artificial gravity environments (Echinochloa crus-galli)
Root gravitropism (Echinochloa crus-galli)
Root angle formation: elongation and curvature response (Echinochloa crus-galli)
Reactive oxygen species (ROS) homeostasis (Echinochloa crus-galli)
Generation of superoxide radicals (Echinochloa crus-galli)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Echinochloa crus-galli)
Superoxide dismutase mt (Echinochloa crus-galli)
H+ [mitochondrial matrix]
Metabolism and regulation (Eragrostis curvula)
Amino acid metabolism (Eragrostis curvula)
Amino acid biosynthesis (Eragrostis curvula)
Arginine degradation (Eragrostis curvula)
Conversion of P5C to glutamate (Eragrostis curvula)
H+ [mitochondrial matrix]
Detoxification (Eragrostis curvula)
Reactive oxygen species (ROS) homeostasis (Eragrostis curvula)
Generation of superoxide radicals (Eragrostis curvula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eragrostis curvula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eragrostis curvula)
Superoxide dismutase mt (Eragrostis curvula)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Eragrostis curvula)
Mitochondrial pyruvate metabolism (Eragrostis curvula)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Eragrostis curvula)
H+ [mitochondrial matrix]
TCA cycle (plant) (Eragrostis curvula)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Eragrostis curvula)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Eragrostis curvula)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Eragrostis curvula)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Eragrostis curvula)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Eragrostis curvula)
Gravitropism under normal or artificial gravity environments (Eragrostis curvula)
Root gravitropism (Eragrostis curvula)
Root angle formation: elongation and curvature response (Eragrostis curvula)
Reactive oxygen species (ROS) homeostasis (Eragrostis curvula)
Generation of superoxide radicals (Eragrostis curvula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eragrostis curvula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eragrostis curvula)
Superoxide dismutase mt (Eragrostis curvula)
H+ [mitochondrial matrix]
Metabolism and regulation (Eragrostis tef)
Amino acid metabolism (Eragrostis tef)
Amino acid biosynthesis (Eragrostis tef)
Arginine degradation (Eragrostis tef)
Conversion of P5C to glutamate (Eragrostis tef)
H+ [mitochondrial matrix]
Detoxification (Eragrostis tef)
Reactive oxygen species (ROS) homeostasis (Eragrostis tef)
Generation of superoxide radicals (Eragrostis tef)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eragrostis tef)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eragrostis tef)
Superoxide dismutase mt (Eragrostis tef)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Eragrostis tef)
Mitochondrial pyruvate metabolism (Eragrostis tef)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Eragrostis tef)
H+ [mitochondrial matrix]
TCA cycle (plant) (Eragrostis tef)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Eragrostis tef)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Eragrostis tef)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Eragrostis tef)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Eragrostis tef)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Eragrostis tef)
Gravitropism under normal or artificial gravity environments (Eragrostis tef)
Root gravitropism (Eragrostis tef)
Root angle formation: elongation and curvature response (Eragrostis tef)
Reactive oxygen species (ROS) homeostasis (Eragrostis tef)
Generation of superoxide radicals (Eragrostis tef)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eragrostis tef)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eragrostis tef)
Superoxide dismutase mt (Eragrostis tef)
H+ [mitochondrial matrix]
Metabolism and regulation (Erythranthe guttata)
Detoxification (Erythranthe guttata)
Reactive oxygen species (ROS) homeostasis (Erythranthe guttata)
Generation of superoxide radicals (Erythranthe guttata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Erythranthe guttata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Erythranthe guttata)
Superoxide dismutase mt (Erythranthe guttata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Erythranthe guttata)
Mitochondrial pyruvate metabolism (Erythranthe guttata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Erythranthe guttata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Erythranthe guttata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Erythranthe guttata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Erythranthe guttata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Erythranthe guttata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Erythranthe guttata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Erythranthe guttata)
Gravitropism under normal or artificial gravity environments (Erythranthe guttata)
Root gravitropism (Erythranthe guttata)
Root angle formation: elongation and curvature response (Erythranthe guttata)
Reactive oxygen species (ROS) homeostasis (Erythranthe guttata)
Generation of superoxide radicals (Erythranthe guttata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Erythranthe guttata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Erythranthe guttata)
Superoxide dismutase mt (Erythranthe guttata)
H+ [mitochondrial matrix]
Metabolism and regulation (Eucalyptus grandis)
Amino acid metabolism (Eucalyptus grandis)
Amino acid biosynthesis (Eucalyptus grandis)
Arginine degradation (Eucalyptus grandis)
Conversion of P5C to glutamate (Eucalyptus grandis)
H+ [mitochondrial matrix]
Detoxification (Eucalyptus grandis)
Reactive oxygen species (ROS) homeostasis (Eucalyptus grandis)
Generation of superoxide radicals (Eucalyptus grandis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eucalyptus grandis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eucalyptus grandis)
Superoxide dismutase mt (Eucalyptus grandis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Eucalyptus grandis)
Mitochondrial pyruvate metabolism (Eucalyptus grandis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Eucalyptus grandis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Eucalyptus grandis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Eucalyptus grandis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Eucalyptus grandis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Eucalyptus grandis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Eucalyptus grandis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Eucalyptus grandis)
Gravitropism under normal or artificial gravity environments (Eucalyptus grandis)
Root gravitropism (Eucalyptus grandis)
Root angle formation: elongation and curvature response (Eucalyptus grandis)
Reactive oxygen species (ROS) homeostasis (Eucalyptus grandis)
Generation of superoxide radicals (Eucalyptus grandis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Eucalyptus grandis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Eucalyptus grandis)
Superoxide dismutase mt (Eucalyptus grandis)
H+ [mitochondrial matrix]
Metabolism and regulation (Ficus carica)
Amino acid metabolism (Ficus carica)
Amino acid biosynthesis (Ficus carica)
Arginine degradation (Ficus carica)
Conversion of P5C to glutamate (Ficus carica)
H+ [mitochondrial matrix]
Detoxification (Ficus carica)
Reactive oxygen species (ROS) homeostasis (Ficus carica)
Generation of superoxide radicals (Ficus carica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ficus carica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ficus carica)
Superoxide dismutase mt (Ficus carica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Ficus carica)
Mitochondrial pyruvate metabolism (Ficus carica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Ficus carica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Ficus carica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Ficus carica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Ficus carica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Ficus carica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Ficus carica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Ficus carica)
Gravitropism under normal or artificial gravity environments (Ficus carica)
Root gravitropism (Ficus carica)
Root angle formation: elongation and curvature response (Ficus carica)
Reactive oxygen species (ROS) homeostasis (Ficus carica)
Generation of superoxide radicals (Ficus carica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ficus carica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ficus carica)
Superoxide dismutase mt (Ficus carica)
H+ [mitochondrial matrix]
Metabolism and regulation (Fragaria vesca)
Detoxification (Fragaria vesca)
Reactive oxygen species (ROS) homeostasis (Fragaria vesca)
Generation of superoxide radicals (Fragaria vesca)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Fragaria vesca)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Fragaria vesca)
Superoxide dismutase mt (Fragaria vesca)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Fragaria vesca)
Mitochondrial pyruvate metabolism (Fragaria vesca)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Fragaria vesca)
H+ [mitochondrial matrix]
TCA cycle (plant) (Fragaria vesca)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Fragaria vesca)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Fragaria vesca)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Fragaria vesca)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Fragaria vesca)
Gravitropism under normal or artificial gravity environments (Fragaria vesca)
Root gravitropism (Fragaria vesca)
Root angle formation: elongation and curvature response (Fragaria vesca)
Reactive oxygen species (ROS) homeostasis (Fragaria vesca)
Generation of superoxide radicals (Fragaria vesca)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Fragaria vesca)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Fragaria vesca)
Superoxide dismutase mt (Fragaria vesca)
H+ [mitochondrial matrix]
Metabolism and regulation (Fraxinus excelsior (European ash))
Amino acid metabolism (Fraxinus excelsior (European ash))
Amino acid biosynthesis (Fraxinus excelsior (European ash))
Arginine degradation (Fraxinus excelsior (European ash))
Conversion of P5C to glutamate (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Detoxification (Fraxinus excelsior (European ash))
Reactive oxygen species (ROS) homeostasis (Fraxinus excelsior (European ash))
Generation of superoxide radicals (Fraxinus excelsior (European ash))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Fraxinus excelsior (European ash))
Superoxide dismutase mt (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Fraxinus excelsior (European ash))
Mitochondrial pyruvate metabolism (Fraxinus excelsior (European ash))
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
TCA cycle (plant) (Fraxinus excelsior (European ash))
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Fraxinus excelsior (European ash))
Gravitropism under normal or artificial gravity environments (Fraxinus excelsior (European ash))
Root gravitropism (Fraxinus excelsior (European ash))
Root angle formation: elongation and curvature response (Fraxinus excelsior (European ash))
Reactive oxygen species (ROS) homeostasis (Fraxinus excelsior (European ash))
Generation of superoxide radicals (Fraxinus excelsior (European ash))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Fraxinus excelsior (European ash))
Superoxide dismutase mt (Fraxinus excelsior (European ash))
H+ [mitochondrial matrix]
Metabolism and regulation (Galdieria sulphuraria)
Detoxification (Galdieria sulphuraria)
Reactive oxygen species (ROS) homeostasis (Galdieria sulphuraria)
Removal of superoxide radicals (Galdieria sulphuraria)
Superoxide dismutase mt (Galdieria sulphuraria)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Galdieria sulphuraria)
Mitochondrial pyruvate metabolism (Galdieria sulphuraria)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Galdieria sulphuraria)
H+ [mitochondrial matrix]
TCA cycle (plant) (Galdieria sulphuraria)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Galdieria sulphuraria)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Galdieria sulphuraria)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Galdieria sulphuraria)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Galdieria sulphuraria)
Gravitropism under normal or artificial gravity environments (Galdieria sulphuraria)
Root gravitropism (Galdieria sulphuraria)
Root angle formation: elongation and curvature response (Galdieria sulphuraria)
Reactive oxygen species (ROS) homeostasis (Galdieria sulphuraria)
Removal of superoxide radicals (Galdieria sulphuraria)
Superoxide dismutase mt (Galdieria sulphuraria)
H+ [mitochondrial matrix]
Metabolism and regulation (Glycine max)
Amino acid metabolism (Glycine max)
Amino acid biosynthesis (Glycine max)
Arginine degradation (Glycine max)
Conversion of P5C to glutamate (Glycine max)
H+ [mitochondrial matrix]
Detoxification (Glycine max)
Reactive oxygen species (ROS) homeostasis (Glycine max)
Generation of superoxide radicals (Glycine max)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Glycine max)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Glycine max)
Superoxide dismutase mt (Glycine max)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Glycine max)
Mitochondrial pyruvate metabolism (Glycine max)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Glycine max)
H+ [mitochondrial matrix]
TCA cycle (plant) (Glycine max)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Glycine max)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Glycine max)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Glycine max)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Glycine max)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Glycine max)
Gravitropism under normal or artificial gravity environments (Glycine max)
Root gravitropism (Glycine max)
Root angle formation: elongation and curvature response (Glycine max)
Reactive oxygen species (ROS) homeostasis (Glycine max)
Generation of superoxide radicals (Glycine max)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Glycine max)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Glycine max)
Superoxide dismutase mt (Glycine max)
H+ [mitochondrial matrix]
Metabolism and regulation (Glycine soja)
Amino acid metabolism (Glycine soja)
Amino acid biosynthesis (Glycine soja)
Arginine degradation (Glycine soja)
Conversion of P5C to glutamate (Glycine soja)
H+ [mitochondrial matrix]
Detoxification (Glycine soja)
Reactive oxygen species (ROS) homeostasis (Glycine soja)
Generation of superoxide radicals (Glycine soja)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Glycine soja)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Glycine soja)
Superoxide dismutase mt (Glycine soja)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Glycine soja)
Mitochondrial pyruvate metabolism (Glycine soja)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Glycine soja)
H+ [mitochondrial matrix]
TCA cycle (plant) (Glycine soja)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Glycine soja)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Glycine soja)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Glycine soja)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Glycine soja)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Glycine soja)
Gravitropism under normal or artificial gravity environments (Glycine soja)
Root gravitropism (Glycine soja)
Root angle formation: elongation and curvature response (Glycine soja)
Reactive oxygen species (ROS) homeostasis (Glycine soja)
Generation of superoxide radicals (Glycine soja)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Glycine soja)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Glycine soja)
Superoxide dismutase mt (Glycine soja)
H+ [mitochondrial matrix]
Metabolism and regulation (Gossypium raimondii)
Amino acid metabolism (Gossypium raimondii)
Amino acid biosynthesis (Gossypium raimondii)
Arginine degradation (Gossypium raimondii)
Conversion of P5C to glutamate (Gossypium raimondii)
H+ [mitochondrial matrix]
Detoxification (Gossypium raimondii)
Reactive oxygen species (ROS) homeostasis (Gossypium raimondii)
Generation of superoxide radicals (Gossypium raimondii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Gossypium raimondii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Gossypium raimondii)
Superoxide dismutase mt (Gossypium raimondii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Gossypium raimondii)
Mitochondrial pyruvate metabolism (Gossypium raimondii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Gossypium raimondii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Gossypium raimondii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Gossypium raimondii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Gossypium raimondii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Gossypium raimondii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Gossypium raimondii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Gossypium raimondii)
Gravitropism under normal or artificial gravity environments (Gossypium raimondii)
Root gravitropism (Gossypium raimondii)
Root angle formation: elongation and curvature response (Gossypium raimondii)
Reactive oxygen species (ROS) homeostasis (Gossypium raimondii)
Generation of superoxide radicals (Gossypium raimondii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Gossypium raimondii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Gossypium raimondii)
Superoxide dismutase mt (Gossypium raimondii)
H+ [mitochondrial matrix]
Metabolism and regulation (Helianthus annuus)
Amino acid metabolism (Helianthus annuus)
Amino acid biosynthesis (Helianthus annuus)
Arginine degradation (Helianthus annuus)
Conversion of P5C to glutamate (Helianthus annuus)
H+ [mitochondrial matrix]
Detoxification (Helianthus annuus)
Reactive oxygen species (ROS) homeostasis (Helianthus annuus)
Generation of superoxide radicals (Helianthus annuus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Helianthus annuus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Helianthus annuus)
Superoxide dismutase mt (Helianthus annuus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Helianthus annuus)
Mitochondrial pyruvate metabolism (Helianthus annuus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Helianthus annuus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Helianthus annuus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Helianthus annuus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Helianthus annuus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Helianthus annuus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Helianthus annuus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Helianthus annuus)
Gravitropism under normal or artificial gravity environments (Helianthus annuus)
Root gravitropism (Helianthus annuus)
Root angle formation: elongation and curvature response (Helianthus annuus)
Reactive oxygen species (ROS) homeostasis (Helianthus annuus)
Generation of superoxide radicals (Helianthus annuus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Helianthus annuus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Helianthus annuus)
Superoxide dismutase mt (Helianthus annuus)
H+ [mitochondrial matrix]
Metabolism and regulation (Hordeum vulgare)
Amino acid metabolism (Hordeum vulgare)
Amino acid biosynthesis (Hordeum vulgare)
Arginine degradation (Hordeum vulgare)
Conversion of P5C to glutamate (Hordeum vulgare)
H+ [mitochondrial matrix]
Detoxification (Hordeum vulgare)
Reactive oxygen species (ROS) homeostasis (Hordeum vulgare)
Generation of superoxide radicals (Hordeum vulgare)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Hordeum vulgare)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Hordeum vulgare)
Superoxide dismutase mt (Hordeum vulgare)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Hordeum vulgare)
Mitochondrial pyruvate metabolism (Hordeum vulgare)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Hordeum vulgare)
H+ [mitochondrial matrix]
TCA cycle (plant) (Hordeum vulgare)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Hordeum vulgare)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Hordeum vulgare)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Hordeum vulgare)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Hordeum vulgare)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Hordeum vulgare)
Gravitropism under normal or artificial gravity environments (Hordeum vulgare)
Root gravitropism (Hordeum vulgare)
Root angle formation: elongation and curvature response (Hordeum vulgare)
Reactive oxygen species (ROS) homeostasis (Hordeum vulgare)
Generation of superoxide radicals (Hordeum vulgare)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Hordeum vulgare)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Hordeum vulgare)
Superoxide dismutase mt (Hordeum vulgare)
H+ [mitochondrial matrix]
Metabolism and regulation (Humulus lupulus)
Detoxification (Humulus lupulus)
Reactive oxygen species (ROS) homeostasis (Humulus lupulus)
Removal of superoxide radicals (Humulus lupulus)
Superoxide dismutase mt (Humulus lupulus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Humulus lupulus)
Mitochondrial pyruvate metabolism (Humulus lupulus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Humulus lupulus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Humulus lupulus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Humulus lupulus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Humulus lupulus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Humulus lupulus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Humulus lupulus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Humulus lupulus)
Gravitropism under normal or artificial gravity environments (Humulus lupulus)
Root gravitropism (Humulus lupulus)
Root angle formation: elongation and curvature response (Humulus lupulus)
Reactive oxygen species (ROS) homeostasis (Humulus lupulus)
Removal of superoxide radicals (Humulus lupulus)
Superoxide dismutase mt (Humulus lupulus)
H+ [mitochondrial matrix]
Metabolism and regulation (Humulus lupulus var. lupulus)
Detoxification (Humulus lupulus var. lupulus)
Reactive oxygen species (ROS) homeostasis (Humulus lupulus var. lupulus)
Generation of superoxide radicals (Humulus lupulus var. lupulus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Humulus lupulus var. lupulus)
Superoxide dismutase mt (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Humulus lupulus var. lupulus)
Mitochondrial pyruvate metabolism (Humulus lupulus var. lupulus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Humulus lupulus var. lupulus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Humulus lupulus var. lupulus)
Gravitropism under normal or artificial gravity environments (Humulus lupulus var. lupulus)
Root gravitropism (Humulus lupulus var. lupulus)
Root angle formation: elongation and curvature response (Humulus lupulus var. lupulus)
Reactive oxygen species (ROS) homeostasis (Humulus lupulus var. lupulus)
Generation of superoxide radicals (Humulus lupulus var. lupulus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Humulus lupulus var. lupulus)
Superoxide dismutase mt (Humulus lupulus var. lupulus)
H+ [mitochondrial matrix]
Metabolism and regulation (Ipomoea triloba)
Amino acid metabolism (Ipomoea triloba)
Amino acid biosynthesis (Ipomoea triloba)
Arginine degradation (Ipomoea triloba)
Conversion of P5C to glutamate (Ipomoea triloba)
H+ [mitochondrial matrix]
Detoxification (Ipomoea triloba)
Reactive oxygen species (ROS) homeostasis (Ipomoea triloba)
Generation of superoxide radicals (Ipomoea triloba)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ipomoea triloba)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ipomoea triloba)
Superoxide dismutase mt (Ipomoea triloba)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Ipomoea triloba)
Mitochondrial pyruvate metabolism (Ipomoea triloba)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Ipomoea triloba)
H+ [mitochondrial matrix]
TCA cycle (plant) (Ipomoea triloba)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Ipomoea triloba)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Ipomoea triloba)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Ipomoea triloba)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Ipomoea triloba)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Ipomoea triloba)
Gravitropism under normal or artificial gravity environments (Ipomoea triloba)
Root gravitropism (Ipomoea triloba)
Root angle formation: elongation and curvature response (Ipomoea triloba)
Reactive oxygen species (ROS) homeostasis (Ipomoea triloba)
Generation of superoxide radicals (Ipomoea triloba)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Ipomoea triloba)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Ipomoea triloba)
Superoxide dismutase mt (Ipomoea triloba)
H+ [mitochondrial matrix]
Metabolism and regulation (Jatropha curcas)
Detoxification (Jatropha curcas)
Reactive oxygen species (ROS) homeostasis (Jatropha curcas)
Generation of superoxide radicals (Jatropha curcas)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Jatropha curcas)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Jatropha curcas)
Superoxide dismutase mt (Jatropha curcas)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Jatropha curcas)
Mitochondrial pyruvate metabolism (Jatropha curcas)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Jatropha curcas)
H+ [mitochondrial matrix]
TCA cycle (plant) (Jatropha curcas)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Jatropha curcas)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Jatropha curcas)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Jatropha curcas)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Jatropha curcas)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Jatropha curcas)
Gravitropism under normal or artificial gravity environments (Jatropha curcas)
Root gravitropism (Jatropha curcas)
Root angle formation: elongation and curvature response (Jatropha curcas)
Reactive oxygen species (ROS) homeostasis (Jatropha curcas)
Generation of superoxide radicals (Jatropha curcas)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Jatropha curcas)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Jatropha curcas)
Superoxide dismutase mt (Jatropha curcas)
H+ [mitochondrial matrix]
Metabolism and regulation (Juglans regia)
Amino acid metabolism (Juglans regia)
Amino acid biosynthesis (Juglans regia)
Arginine degradation (Juglans regia)
Conversion of P5C to glutamate (Juglans regia)
H+ [mitochondrial matrix]
Detoxification (Juglans regia)
Reactive oxygen species (ROS) homeostasis (Juglans regia)
Generation of superoxide radicals (Juglans regia)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Juglans regia)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Juglans regia)
Superoxide dismutase mt (Juglans regia)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Juglans regia)
Mitochondrial pyruvate metabolism (Juglans regia)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Juglans regia)
H+ [mitochondrial matrix]
TCA cycle (plant) (Juglans regia)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Juglans regia)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Juglans regia)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Juglans regia)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Juglans regia)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Juglans regia)
Gravitropism under normal or artificial gravity environments (Juglans regia)
Root gravitropism (Juglans regia)
Root angle formation: elongation and curvature response (Juglans regia)
Reactive oxygen species (ROS) homeostasis (Juglans regia)
Generation of superoxide radicals (Juglans regia)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Juglans regia)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Juglans regia)
Superoxide dismutase mt (Juglans regia)
H+ [mitochondrial matrix]
Metabolism and regulation (Lactuca sativa)
Amino acid metabolism (Lactuca sativa)
Amino acid biosynthesis (Lactuca sativa)
Arginine degradation (Lactuca sativa)
Conversion of P5C to glutamate (Lactuca sativa)
H+ [mitochondrial matrix]
Detoxification (Lactuca sativa)
Reactive oxygen species (ROS) homeostasis (Lactuca sativa)
Generation of superoxide radicals (Lactuca sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lactuca sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lactuca sativa)
Superoxide dismutase mt (Lactuca sativa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Lactuca sativa)
Mitochondrial pyruvate metabolism (Lactuca sativa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Lactuca sativa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Lactuca sativa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Lactuca sativa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Lactuca sativa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Lactuca sativa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Lactuca sativa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Lactuca sativa)
Gravitropism under normal or artificial gravity environments (Lactuca sativa)
Root gravitropism (Lactuca sativa)
Root angle formation: elongation and curvature response (Lactuca sativa)
Reactive oxygen species (ROS) homeostasis (Lactuca sativa)
Generation of superoxide radicals (Lactuca sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lactuca sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lactuca sativa)
Superoxide dismutase mt (Lactuca sativa)
H+ [mitochondrial matrix]
Metabolism and regulation (Lathyrus sativus)
Amino acid metabolism (Lathyrus sativus)
Amino acid biosynthesis (Lathyrus sativus)
Arginine degradation (Lathyrus sativus)
Conversion of P5C to glutamate (Lathyrus sativus)
H+ [mitochondrial matrix]
Detoxification (Lathyrus sativus)
Reactive oxygen species (ROS) homeostasis (Lathyrus sativus)
Generation of superoxide radicals (Lathyrus sativus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lathyrus sativus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lathyrus sativus)
Superoxide dismutase mt (Lathyrus sativus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Lathyrus sativus)
Mitochondrial pyruvate metabolism (Lathyrus sativus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Lathyrus sativus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Lathyrus sativus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Lathyrus sativus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Lathyrus sativus)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Lathyrus sativus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Lathyrus sativus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Lathyrus sativus)
Gravitropism under normal or artificial gravity environments (Lathyrus sativus)
Root gravitropism (Lathyrus sativus)
Root angle formation: elongation and curvature response (Lathyrus sativus)
Reactive oxygen species (ROS) homeostasis (Lathyrus sativus)
Generation of superoxide radicals (Lathyrus sativus)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lathyrus sativus)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lathyrus sativus)
Superoxide dismutase mt (Lathyrus sativus)
H+ [mitochondrial matrix]
Metabolism and regulation (Leersia perrieri)
Amino acid metabolism (Leersia perrieri)
Amino acid biosynthesis (Leersia perrieri)
Arginine degradation (Leersia perrieri)
Conversion of P5C to glutamate (Leersia perrieri)
H+ [mitochondrial matrix]
Detoxification (Leersia perrieri)
Reactive oxygen species (ROS) homeostasis (Leersia perrieri)
Generation of superoxide radicals (Leersia perrieri)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Leersia perrieri)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Leersia perrieri)
Superoxide dismutase mt (Leersia perrieri)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Leersia perrieri)
Mitochondrial pyruvate metabolism (Leersia perrieri)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Leersia perrieri)
H+ [mitochondrial matrix]
TCA cycle (plant) (Leersia perrieri)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Leersia perrieri)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Leersia perrieri)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Leersia perrieri)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Leersia perrieri)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Leersia perrieri)
Gravitropism under normal or artificial gravity environments (Leersia perrieri)
Root gravitropism (Leersia perrieri)
Root angle formation: elongation and curvature response (Leersia perrieri)
Reactive oxygen species (ROS) homeostasis (Leersia perrieri)
Generation of superoxide radicals (Leersia perrieri)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Leersia perrieri)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Leersia perrieri)
Superoxide dismutase mt (Leersia perrieri)
H+ [mitochondrial matrix]
Metabolism and regulation (Lolium perenne)
Amino acid metabolism (Lolium perenne)
Amino acid biosynthesis (Lolium perenne)
Arginine degradation (Lolium perenne)
Conversion of P5C to glutamate (Lolium perenne)
H+ [mitochondrial matrix]
Detoxification (Lolium perenne)
Reactive oxygen species (ROS) homeostasis (Lolium perenne)
Generation of superoxide radicals (Lolium perenne)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lolium perenne)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lolium perenne)
Superoxide dismutase mt (Lolium perenne)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Lolium perenne)
Mitochondrial pyruvate metabolism (Lolium perenne)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Lolium perenne)
H+ [mitochondrial matrix]
TCA cycle (plant) (Lolium perenne)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Lolium perenne)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Lolium perenne)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Lolium perenne)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Lolium perenne)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Lolium perenne)
Gravitropism under normal or artificial gravity environments (Lolium perenne)
Root gravitropism (Lolium perenne)
Root angle formation: elongation and curvature response (Lolium perenne)
Reactive oxygen species (ROS) homeostasis (Lolium perenne)
Generation of superoxide radicals (Lolium perenne)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lolium perenne)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lolium perenne)
Superoxide dismutase mt (Lolium perenne)
H+ [mitochondrial matrix]
Metabolism and regulation (Lupinus angustifolius)
Amino acid metabolism (Lupinus angustifolius)
Amino acid biosynthesis (Lupinus angustifolius)
Arginine degradation (Lupinus angustifolius)
Conversion of P5C to glutamate (Lupinus angustifolius)
H+ [mitochondrial matrix]
Detoxification (Lupinus angustifolius)
Reactive oxygen species (ROS) homeostasis (Lupinus angustifolius)
Generation of superoxide radicals (Lupinus angustifolius)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lupinus angustifolius)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lupinus angustifolius)
Superoxide dismutase mt (Lupinus angustifolius)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Lupinus angustifolius)
Mitochondrial pyruvate metabolism (Lupinus angustifolius)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Lupinus angustifolius)
H+ [mitochondrial matrix]
TCA cycle (plant) (Lupinus angustifolius)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Lupinus angustifolius)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Lupinus angustifolius)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Lupinus angustifolius)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Lupinus angustifolius)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Lupinus angustifolius)
Gravitropism under normal or artificial gravity environments (Lupinus angustifolius)
Root gravitropism (Lupinus angustifolius)
Root angle formation: elongation and curvature response (Lupinus angustifolius)
Reactive oxygen species (ROS) homeostasis (Lupinus angustifolius)
Generation of superoxide radicals (Lupinus angustifolius)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Lupinus angustifolius)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Lupinus angustifolius)
Superoxide dismutase mt (Lupinus angustifolius)
H+ [mitochondrial matrix]
Metabolism and regulation (Malus domestica)
Amino acid metabolism (Malus domestica)
Amino acid biosynthesis (Malus domestica)
Arginine degradation (Malus domestica)
Conversion of P5C to glutamate (Malus domestica)
H+ [mitochondrial matrix]
Detoxification (Malus domestica)
Reactive oxygen species (ROS) homeostasis (Malus domestica)
Generation of superoxide radicals (Malus domestica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Malus domestica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Malus domestica)
Superoxide dismutase mt (Malus domestica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Malus domestica)
Mitochondrial pyruvate metabolism (Malus domestica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Malus domestica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Malus domestica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Malus domestica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Malus domestica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Malus domestica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Malus domestica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Malus domestica)
Gravitropism under normal or artificial gravity environments (Malus domestica)
Root gravitropism (Malus domestica)
Root angle formation: elongation and curvature response (Malus domestica)
Reactive oxygen species (ROS) homeostasis (Malus domestica)
Generation of superoxide radicals (Malus domestica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Malus domestica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Malus domestica)
Superoxide dismutase mt (Malus domestica)
H+ [mitochondrial matrix]
Metabolism and regulation (Manihot esculenta)
Amino acid metabolism (Manihot esculenta)
Amino acid biosynthesis (Manihot esculenta)
Arginine degradation (Manihot esculenta)
Conversion of P5C to glutamate (Manihot esculenta)
H+ [mitochondrial matrix]
Detoxification (Manihot esculenta)
Reactive oxygen species (ROS) homeostasis (Manihot esculenta)
Generation of superoxide radicals (Manihot esculenta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Manihot esculenta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Manihot esculenta)
Superoxide dismutase mt (Manihot esculenta)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Manihot esculenta)
Mitochondrial pyruvate metabolism (Manihot esculenta)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Manihot esculenta)
H+ [mitochondrial matrix]
TCA cycle (plant) (Manihot esculenta)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Manihot esculenta)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Manihot esculenta)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Manihot esculenta)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Manihot esculenta)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Manihot esculenta)
Gravitropism under normal or artificial gravity environments (Manihot esculenta)
Root gravitropism (Manihot esculenta)
Root angle formation: elongation and curvature response (Manihot esculenta)
Reactive oxygen species (ROS) homeostasis (Manihot esculenta)
Generation of superoxide radicals (Manihot esculenta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Manihot esculenta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Manihot esculenta)
Superoxide dismutase mt (Manihot esculenta)
H+ [mitochondrial matrix]
Metabolism and regulation (Marchantia polymorpha)
Amino acid metabolism (Marchantia polymorpha)
Amino acid biosynthesis (Marchantia polymorpha)
Arginine degradation (Marchantia polymorpha)
Conversion of P5C to glutamate (Marchantia polymorpha)
H+ [mitochondrial matrix]
Detoxification (Marchantia polymorpha)
Reactive oxygen species (ROS) homeostasis (Marchantia polymorpha)
Removal of superoxide radicals (Marchantia polymorpha)
Superoxide dismutase mt (Marchantia polymorpha)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Marchantia polymorpha)
Mitochondrial pyruvate metabolism (Marchantia polymorpha)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Marchantia polymorpha)
H+ [mitochondrial matrix]
TCA cycle (plant) (Marchantia polymorpha)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Marchantia polymorpha)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Marchantia polymorpha)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Marchantia polymorpha)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Marchantia polymorpha)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Marchantia polymorpha)
Gravitropism under normal or artificial gravity environments (Marchantia polymorpha)
Root gravitropism (Marchantia polymorpha)
Root angle formation: elongation and curvature response (Marchantia polymorpha)
Reactive oxygen species (ROS) homeostasis (Marchantia polymorpha)
Removal of superoxide radicals (Marchantia polymorpha)
Superoxide dismutase mt (Marchantia polymorpha)
H+ [mitochondrial matrix]
Metabolism and regulation (Medicago truncatula)
Amino acid metabolism (Medicago truncatula)
Amino acid biosynthesis (Medicago truncatula)
Arginine degradation (Medicago truncatula)
Conversion of P5C to glutamate (Medicago truncatula)
H+ [mitochondrial matrix]
Detoxification (Medicago truncatula)
Reactive oxygen species (ROS) homeostasis (Medicago truncatula)
Generation of superoxide radicals (Medicago truncatula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Medicago truncatula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Medicago truncatula)
Superoxide dismutase mt (Medicago truncatula)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Medicago truncatula)
Mitochondrial pyruvate metabolism (Medicago truncatula)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Medicago truncatula)
H+ [mitochondrial matrix]
TCA cycle (plant) (Medicago truncatula)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Medicago truncatula)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Medicago truncatula)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Medicago truncatula)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Medicago truncatula)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Medicago truncatula)
Gravitropism under normal or artificial gravity environments (Medicago truncatula)
Root gravitropism (Medicago truncatula)
Root angle formation: elongation and curvature response (Medicago truncatula)
Reactive oxygen species (ROS) homeostasis (Medicago truncatula)
Generation of superoxide radicals (Medicago truncatula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Medicago truncatula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Medicago truncatula)
Superoxide dismutase mt (Medicago truncatula)
H+ [mitochondrial matrix]
Metabolism and regulation (Musa acuminata)
Amino acid metabolism (Musa acuminata)
Amino acid biosynthesis (Musa acuminata)
Arginine degradation (Musa acuminata)
Conversion of P5C to glutamate (Musa acuminata)
H+ [mitochondrial matrix]
Detoxification (Musa acuminata)
Reactive oxygen species (ROS) homeostasis (Musa acuminata)
Generation of superoxide radicals (Musa acuminata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Musa acuminata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Musa acuminata)
Superoxide dismutase mt (Musa acuminata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Musa acuminata)
Mitochondrial pyruvate metabolism (Musa acuminata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Musa acuminata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Musa acuminata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Musa acuminata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Musa acuminata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Musa acuminata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Musa acuminata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Musa acuminata)
Gravitropism under normal or artificial gravity environments (Musa acuminata)
Root gravitropism (Musa acuminata)
Root angle formation: elongation and curvature response (Musa acuminata)
Reactive oxygen species (ROS) homeostasis (Musa acuminata)
Generation of superoxide radicals (Musa acuminata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Musa acuminata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Musa acuminata)
Superoxide dismutase mt (Musa acuminata)
H+ [mitochondrial matrix]
Metabolism and regulation (Nelumbo nucifera)
Detoxification (Nelumbo nucifera)
Reactive oxygen species (ROS) homeostasis (Nelumbo nucifera)
Generation of superoxide radicals (Nelumbo nucifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nelumbo nucifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nelumbo nucifera)
Superoxide dismutase mt (Nelumbo nucifera)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Nelumbo nucifera)
Mitochondrial pyruvate metabolism (Nelumbo nucifera)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Nelumbo nucifera)
H+ [mitochondrial matrix]
TCA cycle (plant) (Nelumbo nucifera)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Nelumbo nucifera)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Nelumbo nucifera)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Nelumbo nucifera)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Nelumbo nucifera)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Nelumbo nucifera)
Gravitropism under normal or artificial gravity environments (Nelumbo nucifera)
Root gravitropism (Nelumbo nucifera)
Root angle formation: elongation and curvature response (Nelumbo nucifera)
Reactive oxygen species (ROS) homeostasis (Nelumbo nucifera)
Generation of superoxide radicals (Nelumbo nucifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nelumbo nucifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nelumbo nucifera)
Superoxide dismutase mt (Nelumbo nucifera)
H+ [mitochondrial matrix]
Metabolism and regulation (Nicotiana attenuata)
Amino acid metabolism (Nicotiana attenuata)
Amino acid biosynthesis (Nicotiana attenuata)
Arginine degradation (Nicotiana attenuata)
Conversion of P5C to glutamate (Nicotiana attenuata)
H+ [mitochondrial matrix]
Detoxification (Nicotiana attenuata)
Reactive oxygen species (ROS) homeostasis (Nicotiana attenuata)
Generation of superoxide radicals (Nicotiana attenuata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nicotiana attenuata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nicotiana attenuata)
Superoxide dismutase mt (Nicotiana attenuata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Nicotiana attenuata)
Mitochondrial pyruvate metabolism (Nicotiana attenuata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Nicotiana attenuata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Nicotiana attenuata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Nicotiana attenuata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Nicotiana attenuata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Nicotiana attenuata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Nicotiana attenuata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Nicotiana attenuata)
Gravitropism under normal or artificial gravity environments (Nicotiana attenuata)
Root gravitropism (Nicotiana attenuata)
Root angle formation: elongation and curvature response (Nicotiana attenuata)
Reactive oxygen species (ROS) homeostasis (Nicotiana attenuata)
Generation of superoxide radicals (Nicotiana attenuata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nicotiana attenuata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nicotiana attenuata)
Superoxide dismutase mt (Nicotiana attenuata)
H+ [mitochondrial matrix]
Metabolism and regulation (Nymphaea colorata)
Amino acid metabolism (Nymphaea colorata)
Amino acid biosynthesis (Nymphaea colorata)
Arginine degradation (Nymphaea colorata)
Conversion of P5C to glutamate (Nymphaea colorata)
H+ [mitochondrial matrix]
Detoxification (Nymphaea colorata)
Reactive oxygen species (ROS) homeostasis (Nymphaea colorata)
Generation of superoxide radicals (Nymphaea colorata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nymphaea colorata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nymphaea colorata)
Superoxide dismutase mt (Nymphaea colorata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Nymphaea colorata)
Mitochondrial pyruvate metabolism (Nymphaea colorata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Nymphaea colorata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Nymphaea colorata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Nymphaea colorata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Nymphaea colorata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Nymphaea colorata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Nymphaea colorata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Nymphaea colorata)
Gravitropism under normal or artificial gravity environments (Nymphaea colorata)
Root gravitropism (Nymphaea colorata)
Root angle formation: elongation and curvature response (Nymphaea colorata)
Reactive oxygen species (ROS) homeostasis (Nymphaea colorata)
Generation of superoxide radicals (Nymphaea colorata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Nymphaea colorata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Nymphaea colorata)
Superoxide dismutase mt (Nymphaea colorata)
H+ [mitochondrial matrix]
Metabolism and regulation (Olea europaea)
Amino acid metabolism (Olea europaea)
Amino acid biosynthesis (Olea europaea)
Arginine degradation (Olea europaea)
Conversion of P5C to glutamate (Olea europaea)
H+ [mitochondrial matrix]
Detoxification (Olea europaea)
Reactive oxygen species (ROS) homeostasis (Olea europaea)
Generation of superoxide radicals (Olea europaea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Olea europaea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Olea europaea)
Superoxide dismutase mt (Olea europaea)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Olea europaea)
Mitochondrial pyruvate metabolism (Olea europaea)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Olea europaea)
H+ [mitochondrial matrix]
TCA cycle (plant) (Olea europaea)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Olea europaea)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Olea europaea)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Olea europaea)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Olea europaea)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Olea europaea)
Gravitropism under normal or artificial gravity environments (Olea europaea)
Root gravitropism (Olea europaea)
Root angle formation: elongation and curvature response (Olea europaea)
Reactive oxygen species (ROS) homeostasis (Olea europaea)
Generation of superoxide radicals (Olea europaea)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Olea europaea)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Olea europaea)
Superoxide dismutase mt (Olea europaea)
H+ [mitochondrial matrix]
Metabolism and regulation (Olea europaea var. sylvestris)
Amino acid metabolism (Olea europaea var. sylvestris)
Amino acid biosynthesis (Olea europaea var. sylvestris)
Arginine degradation (Olea europaea var. sylvestris)
Conversion of P5C to glutamate (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Detoxification (Olea europaea var. sylvestris)
Reactive oxygen species (ROS) homeostasis (Olea europaea var. sylvestris)
Generation of superoxide radicals (Olea europaea var. sylvestris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Olea europaea var. sylvestris)
Superoxide dismutase mt (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Olea europaea var. sylvestris)
Mitochondrial pyruvate metabolism (Olea europaea var. sylvestris)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
TCA cycle (plant) (Olea europaea var. sylvestris)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Olea europaea var. sylvestris)
Gravitropism under normal or artificial gravity environments (Olea europaea var. sylvestris)
Root gravitropism (Olea europaea var. sylvestris)
Root angle formation: elongation and curvature response (Olea europaea var. sylvestris)
Reactive oxygen species (ROS) homeostasis (Olea europaea var. sylvestris)
Generation of superoxide radicals (Olea europaea var. sylvestris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Olea europaea var. sylvestris)
Superoxide dismutase mt (Olea europaea var. sylvestris)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza australiensis)
Detoxification (Oryza australiensis)
Reactive oxygen species (ROS) homeostasis (Oryza australiensis)
Removal of superoxide radicals (Oryza australiensis)
Superoxide dismutase mt (Oryza australiensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza australiensis)
Mitochondrial pyruvate metabolism (Oryza australiensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza australiensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza australiensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza australiensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza australiensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza australiensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza australiensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza australiensis)
Gravitropism under normal or artificial gravity environments (Oryza australiensis)
Root gravitropism (Oryza australiensis)
Root angle formation: elongation and curvature response (Oryza australiensis)
Reactive oxygen species (ROS) homeostasis (Oryza australiensis)
Removal of superoxide radicals (Oryza australiensis)
Superoxide dismutase mt (Oryza australiensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza barthii)
Amino acid metabolism (Oryza barthii)
Amino acid biosynthesis (Oryza barthii)
Arginine degradation (Oryza barthii)
Conversion of P5C to glutamate (Oryza barthii)
H+ [mitochondrial matrix]
Detoxification (Oryza barthii)
Reactive oxygen species (ROS) homeostasis (Oryza barthii)
Generation of superoxide radicals (Oryza barthii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza barthii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza barthii)
Superoxide dismutase mt (Oryza barthii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza barthii)
Mitochondrial pyruvate metabolism (Oryza barthii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza barthii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza barthii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza barthii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza barthii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza barthii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza barthii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza barthii)
Gravitropism under normal or artificial gravity environments (Oryza barthii)
Root gravitropism (Oryza barthii)
Root angle formation: elongation and curvature response (Oryza barthii)
Reactive oxygen species (ROS) homeostasis (Oryza barthii)
Generation of superoxide radicals (Oryza barthii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza barthii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza barthii)
Superoxide dismutase mt (Oryza barthii)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza brachyantha)
Amino acid metabolism (Oryza brachyantha)
Amino acid biosynthesis (Oryza brachyantha)
Arginine degradation (Oryza brachyantha)
Conversion of P5C to glutamate (Oryza brachyantha)
H+ [mitochondrial matrix]
Detoxification (Oryza brachyantha)
Reactive oxygen species (ROS) homeostasis (Oryza brachyantha)
Generation of superoxide radicals (Oryza brachyantha)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza brachyantha)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza brachyantha)
Superoxide dismutase mt (Oryza brachyantha)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza brachyantha)
Mitochondrial pyruvate metabolism (Oryza brachyantha)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza brachyantha)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza brachyantha)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza brachyantha)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza brachyantha)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza brachyantha)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza brachyantha)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza brachyantha)
Gravitropism under normal or artificial gravity environments (Oryza brachyantha)
Root gravitropism (Oryza brachyantha)
Root angle formation: elongation and curvature response (Oryza brachyantha)
Reactive oxygen species (ROS) homeostasis (Oryza brachyantha)
Generation of superoxide radicals (Oryza brachyantha)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza brachyantha)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza brachyantha)
Superoxide dismutase mt (Oryza brachyantha)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza glaberrima)
Detoxification (Oryza glaberrima)
Reactive oxygen species (ROS) homeostasis (Oryza glaberrima)
Generation of superoxide radicals (Oryza glaberrima)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza glaberrima)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza glaberrima)
Superoxide dismutase mt (Oryza glaberrima)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza glaberrima)
Mitochondrial pyruvate metabolism (Oryza glaberrima)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza glaberrima)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza glaberrima)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza glaberrima)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza glaberrima)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza glaberrima)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza glaberrima)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza glaberrima)
Gravitropism under normal or artificial gravity environments (Oryza glaberrima)
Root gravitropism (Oryza glaberrima)
Root angle formation: elongation and curvature response (Oryza glaberrima)
Reactive oxygen species (ROS) homeostasis (Oryza glaberrima)
Generation of superoxide radicals (Oryza glaberrima)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza glaberrima)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza glaberrima)
Superoxide dismutase mt (Oryza glaberrima)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza glumaepatula)
Amino acid metabolism (Oryza glumaepatula)
Amino acid biosynthesis (Oryza glumaepatula)
Arginine degradation (Oryza glumaepatula)
Conversion of P5C to glutamate (Oryza glumaepatula)
H+ [mitochondrial matrix]
Detoxification (Oryza glumaepatula)
Reactive oxygen species (ROS) homeostasis (Oryza glumaepatula)
Generation of superoxide radicals (Oryza glumaepatula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza glumaepatula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza glumaepatula)
Superoxide dismutase mt (Oryza glumaepatula)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza glumaepatula)
Mitochondrial pyruvate metabolism (Oryza glumaepatula)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza glumaepatula)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza glumaepatula)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza glumaepatula)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza glumaepatula)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza glumaepatula)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza glumaepatula)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza glumaepatula)
Gravitropism under normal or artificial gravity environments (Oryza glumaepatula)
Root gravitropism (Oryza glumaepatula)
Root angle formation: elongation and curvature response (Oryza glumaepatula)
Reactive oxygen species (ROS) homeostasis (Oryza glumaepatula)
Generation of superoxide radicals (Oryza glumaepatula)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza glumaepatula)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza glumaepatula)
Superoxide dismutase mt (Oryza glumaepatula)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza longistaminata)
Amino acid metabolism (Oryza longistaminata)
Amino acid biosynthesis (Oryza longistaminata)
Arginine degradation (Oryza longistaminata)
Conversion of P5C to glutamate (Oryza longistaminata)
H+ [mitochondrial matrix]
Detoxification (Oryza longistaminata)
Reactive oxygen species (ROS) homeostasis (Oryza longistaminata)
Generation of superoxide radicals (Oryza longistaminata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza longistaminata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza longistaminata)
Mitochondrial pyruvate metabolism (Oryza longistaminata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza longistaminata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza longistaminata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza longistaminata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza longistaminata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza longistaminata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza longistaminata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza longistaminata)
Gravitropism under normal or artificial gravity environments (Oryza longistaminata)
Root gravitropism (Oryza longistaminata)
Root angle formation: elongation and curvature response (Oryza longistaminata)
Reactive oxygen species (ROS) homeostasis (Oryza longistaminata)
Generation of superoxide radicals (Oryza longistaminata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza longistaminata)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza meridionalis)
Amino acid metabolism (Oryza meridionalis)
Amino acid biosynthesis (Oryza meridionalis)
Arginine degradation (Oryza meridionalis)
Conversion of P5C to glutamate (Oryza meridionalis)
H+ [mitochondrial matrix]
Detoxification (Oryza meridionalis)
Reactive oxygen species (ROS) homeostasis (Oryza meridionalis)
Generation of superoxide radicals (Oryza meridionalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza meridionalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza meridionalis)
Superoxide dismutase mt (Oryza meridionalis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza meridionalis)
Mitochondrial pyruvate metabolism (Oryza meridionalis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza meridionalis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza meridionalis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza meridionalis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza meridionalis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza meridionalis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza meridionalis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza meridionalis)
Gravitropism under normal or artificial gravity environments (Oryza meridionalis)
Root gravitropism (Oryza meridionalis)
Root angle formation: elongation and curvature response (Oryza meridionalis)
Reactive oxygen species (ROS) homeostasis (Oryza meridionalis)
Generation of superoxide radicals (Oryza meridionalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza meridionalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza meridionalis)
Superoxide dismutase mt (Oryza meridionalis)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza meyeriana var. granulata)
Detoxification (Oryza meyeriana var. granulata)
Reactive oxygen species (ROS) homeostasis (Oryza meyeriana var. granulata)
Generation of superoxide radicals (Oryza meyeriana var. granulata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza meyeriana var. granulata)
Superoxide dismutase mt (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza meyeriana var. granulata)
Mitochondrial pyruvate metabolism (Oryza meyeriana var. granulata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza meyeriana var. granulata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza meyeriana var. granulata)
Gravitropism under normal or artificial gravity environments (Oryza meyeriana var. granulata)
Root gravitropism (Oryza meyeriana var. granulata)
Root angle formation: elongation and curvature response (Oryza meyeriana var. granulata)
Reactive oxygen species (ROS) homeostasis (Oryza meyeriana var. granulata)
Generation of superoxide radicals (Oryza meyeriana var. granulata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza meyeriana var. granulata)
Superoxide dismutase mt (Oryza meyeriana var. granulata)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza minuta)
Detoxification (Oryza minuta)
Reactive oxygen species (ROS) homeostasis (Oryza minuta)
Generation of superoxide radicals (Oryza minuta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza minuta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza minuta)
Superoxide dismutase mt (Oryza minuta)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza minuta)
Mitochondrial pyruvate metabolism (Oryza minuta)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza minuta)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza minuta)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza minuta)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza minuta)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza minuta)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza minuta)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza minuta)
Gravitropism under normal or artificial gravity environments (Oryza minuta)
Root gravitropism (Oryza minuta)
Root angle formation: elongation and curvature response (Oryza minuta)
Reactive oxygen species (ROS) homeostasis (Oryza minuta)
Generation of superoxide radicals (Oryza minuta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza minuta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza minuta)
Superoxide dismutase mt (Oryza minuta)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza nivara)
Amino acid metabolism (Oryza nivara)
Amino acid biosynthesis (Oryza nivara)
Arginine degradation (Oryza nivara)
Conversion of P5C to glutamate (Oryza nivara)
H+ [mitochondrial matrix]
Detoxification (Oryza nivara)
Reactive oxygen species (ROS) homeostasis (Oryza nivara)
Generation of superoxide radicals (Oryza nivara)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza nivara)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza nivara)
Superoxide dismutase mt (Oryza nivara)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza nivara)
Mitochondrial pyruvate metabolism (Oryza nivara)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza nivara)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza nivara)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza nivara)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza nivara)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza nivara)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza nivara)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza nivara)
Gravitropism under normal or artificial gravity environments (Oryza nivara)
Root gravitropism (Oryza nivara)
Root angle formation: elongation and curvature response (Oryza nivara)
Reactive oxygen species (ROS) homeostasis (Oryza nivara)
Generation of superoxide radicals (Oryza nivara)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza nivara)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza nivara)
Superoxide dismutase mt (Oryza nivara)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza officinalis)
Detoxification (Oryza officinalis)
Reactive oxygen species (ROS) homeostasis (Oryza officinalis)
Generation of superoxide radicals (Oryza officinalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza officinalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza officinalis)
Superoxide dismutase mt (Oryza officinalis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza officinalis)
Mitochondrial pyruvate metabolism (Oryza officinalis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza officinalis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza officinalis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza officinalis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza officinalis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza officinalis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza officinalis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza officinalis)
Gravitropism under normal or artificial gravity environments (Oryza officinalis)
Root gravitropism (Oryza officinalis)
Root angle formation: elongation and curvature response (Oryza officinalis)
Reactive oxygen species (ROS) homeostasis (Oryza officinalis)
Generation of superoxide radicals (Oryza officinalis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza officinalis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza officinalis)
Superoxide dismutase mt (Oryza officinalis)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza punctata)
Amino acid metabolism (Oryza punctata)
Amino acid biosynthesis (Oryza punctata)
Arginine degradation (Oryza punctata)
Conversion of P5C to glutamate (Oryza punctata)
H+ [mitochondrial matrix]
Detoxification (Oryza punctata)
Reactive oxygen species (ROS) homeostasis (Oryza punctata)
Generation of superoxide radicals (Oryza punctata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza punctata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza punctata)
Superoxide dismutase mt (Oryza punctata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza punctata)
Mitochondrial pyruvate metabolism (Oryza punctata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza punctata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza punctata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza punctata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza punctata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza punctata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza punctata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza punctata)
Gravitropism under normal or artificial gravity environments (Oryza punctata)
Root gravitropism (Oryza punctata)
Root angle formation: elongation and curvature response (Oryza punctata)
Reactive oxygen species (ROS) homeostasis (Oryza punctata)
Generation of superoxide radicals (Oryza punctata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza punctata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza punctata)
Superoxide dismutase mt (Oryza punctata)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza rufipogon)
Amino acid metabolism (Oryza rufipogon)
Amino acid biosynthesis (Oryza rufipogon)
Arginine degradation (Oryza rufipogon)
Conversion of P5C to glutamate (Oryza rufipogon)
H+ [mitochondrial matrix]
Detoxification (Oryza rufipogon)
Reactive oxygen species (ROS) homeostasis (Oryza rufipogon)
Generation of superoxide radicals (Oryza rufipogon)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza rufipogon)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza rufipogon)
Superoxide dismutase mt (Oryza rufipogon)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza rufipogon)
Mitochondrial pyruvate metabolism (Oryza rufipogon)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza rufipogon)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza rufipogon)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza rufipogon)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza rufipogon)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza rufipogon)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza rufipogon)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza rufipogon)
Gravitropism under normal or artificial gravity environments (Oryza rufipogon)
Root gravitropism (Oryza rufipogon)
Root angle formation: elongation and curvature response (Oryza rufipogon)
Reactive oxygen species (ROS) homeostasis (Oryza rufipogon)
Generation of superoxide radicals (Oryza rufipogon)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza rufipogon)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza rufipogon)
Superoxide dismutase mt (Oryza rufipogon)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza sativa)
Amino acid metabolism (Oryza sativa)
Amino acid biosynthesis (Oryza sativa)
Arginine degradation (Oryza sativa)
Conversion of P5C to glutamate (Oryza sativa)
H+ [mitochondrial matrix]
Conversion of glutamate g-semialdehyde to P5C (Oryza sativa)
H+ [mitochondrial matrix]
Detoxification (Oryza sativa)
Reactive oxygen species (ROS) homeostasis (Oryza sativa)
Generation of superoxide radicals (Oryza sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza sativa)
Superoxide dismutase mt (Oryza sativa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza sativa)
Mitochondrial pyruvate metabolism (Oryza sativa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza sativa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza sativa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza sativa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza sativa)
H+ [mitochondrial matrix]
PYR [mitochondrial matrix]->Ac-CoA [mitochondrial matrix] (Oryza sativa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza sativa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza sativa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza sativa)
Gravitropism under normal or artificial gravity environments (Oryza sativa)
Root gravitropism (Oryza sativa)
Root angle formation: elongation and curvature response (Oryza sativa)
Reactive oxygen species (ROS) homeostasis (Oryza sativa)
Generation of superoxide radicals (Oryza sativa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza sativa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza sativa)
Superoxide dismutase mt (Oryza sativa)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza sativa Indica Group)
Amino acid metabolism (Oryza sativa Indica Group)
Amino acid biosynthesis (Oryza sativa Indica Group)
Arginine degradation (Oryza sativa Indica Group)
Conversion of P5C to glutamate (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Detoxification (Oryza sativa Indica Group)
Reactive oxygen species (ROS) homeostasis (Oryza sativa Indica Group)
Generation of superoxide radicals (Oryza sativa Indica Group)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza sativa Indica Group)
Superoxide dismutase mt (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Oryza sativa Indica Group)
Mitochondrial pyruvate metabolism (Oryza sativa Indica Group)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
TCA cycle (plant) (Oryza sativa Indica Group)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Oryza sativa Indica Group)
Gravitropism under normal or artificial gravity environments (Oryza sativa Indica Group)
Root gravitropism (Oryza sativa Indica Group)
Root angle formation: elongation and curvature response (Oryza sativa Indica Group)
Reactive oxygen species (ROS) homeostasis (Oryza sativa Indica Group)
Generation of superoxide radicals (Oryza sativa Indica Group)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Oryza sativa Indica Group)
Superoxide dismutase mt (Oryza sativa Indica Group)
H+ [mitochondrial matrix]
Metabolism and regulation (Oryza sativa aus subgroup)
Generation of precursor metabolites and energy (Oryza sativa aus subgroup)
TCA cycle (plant) (Oryza sativa aus subgroup)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Oryza sativa aus subgroup)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Oryza sativa aus subgroup)
H+ [mitochondrial matrix]
Metabolism and regulation (Ostreococcus lucimarinus)
Amino acid metabolism (Ostreococcus lucimarinus)
Amino acid biosynthesis (Ostreococcus lucimarinus)
Arginine degradation (Ostreococcus lucimarinus)
Conversion of P5C to glutamate (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
Detoxification (Ostreococcus lucimarinus)
Reactive oxygen species (ROS) homeostasis (Ostreococcus lucimarinus)
Removal of superoxide radicals (Ostreococcus lucimarinus)
Superoxide dismutase mt (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Ostreococcus lucimarinus)
Mitochondrial pyruvate metabolism (Ostreococcus lucimarinus)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
TCA cycle (plant) (Ostreococcus lucimarinus)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Ostreococcus lucimarinus)
Gravitropism under normal or artificial gravity environments (Ostreococcus lucimarinus)
Root gravitropism (Ostreococcus lucimarinus)
Root angle formation: elongation and curvature response (Ostreococcus lucimarinus)
Reactive oxygen species (ROS) homeostasis (Ostreococcus lucimarinus)
Removal of superoxide radicals (Ostreococcus lucimarinus)
Superoxide dismutase mt (Ostreococcus lucimarinus)
H+ [mitochondrial matrix]
Metabolism and regulation (Panicum hallii ("FIL2"))
Amino acid metabolism (Panicum hallii ("FIL2"))
Amino acid biosynthesis (Panicum hallii ("FIL2"))
Arginine degradation (Panicum hallii ("FIL2"))
Conversion of P5C to glutamate (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Detoxification (Panicum hallii ("FIL2"))
Reactive oxygen species (ROS) homeostasis (Panicum hallii ("FIL2"))
Generation of superoxide radicals (Panicum hallii ("FIL2"))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Panicum hallii ("FIL2"))
Superoxide dismutase mt (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Panicum hallii ("FIL2"))
Mitochondrial pyruvate metabolism (Panicum hallii ("FIL2"))
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
TCA cycle (plant) (Panicum hallii ("FIL2"))
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Panicum hallii ("FIL2"))
Gravitropism under normal or artificial gravity environments (Panicum hallii ("FIL2"))
Root gravitropism (Panicum hallii ("FIL2"))
Root angle formation: elongation and curvature response (Panicum hallii ("FIL2"))
Reactive oxygen species (ROS) homeostasis (Panicum hallii ("FIL2"))
Generation of superoxide radicals (Panicum hallii ("FIL2"))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Panicum hallii ("FIL2"))
Superoxide dismutase mt (Panicum hallii ("FIL2"))
H+ [mitochondrial matrix]
Metabolism and regulation (Panicum hallii var. hallii ("HAL2"))
Amino acid metabolism (Panicum hallii var. hallii ("HAL2"))
Amino acid biosynthesis (Panicum hallii var. hallii ("HAL2"))
Arginine degradation (Panicum hallii var. hallii ("HAL2"))
Conversion of P5C to glutamate (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Detoxification (Panicum hallii var. hallii ("HAL2"))
Reactive oxygen species (ROS) homeostasis (Panicum hallii var. hallii ("HAL2"))
Generation of superoxide radicals (Panicum hallii var. hallii ("HAL2"))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Panicum hallii var. hallii ("HAL2"))
Superoxide dismutase mt (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Panicum hallii var. hallii ("HAL2"))
Mitochondrial pyruvate metabolism (Panicum hallii var. hallii ("HAL2"))
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
TCA cycle (plant) (Panicum hallii var. hallii ("HAL2"))
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Panicum hallii var. hallii ("HAL2"))
Gravitropism under normal or artificial gravity environments (Panicum hallii var. hallii ("HAL2"))
Root gravitropism (Panicum hallii var. hallii ("HAL2"))
Root angle formation: elongation and curvature response (Panicum hallii var. hallii ("HAL2"))
Reactive oxygen species (ROS) homeostasis (Panicum hallii var. hallii ("HAL2"))
Generation of superoxide radicals (Panicum hallii var. hallii ("HAL2"))
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Removal of superoxide radicals (Panicum hallii var. hallii ("HAL2"))
Superoxide dismutase mt (Panicum hallii var. hallii ("HAL2"))
H+ [mitochondrial matrix]
Metabolism and regulation (Papaver somniferum)
Amino acid metabolism (Papaver somniferum)
Amino acid biosynthesis (Papaver somniferum)
Arginine degradation (Papaver somniferum)
Conversion of P5C to glutamate (Papaver somniferum)
H+ [mitochondrial matrix]
Detoxification (Papaver somniferum)
Reactive oxygen species (ROS) homeostasis (Papaver somniferum)
Generation of superoxide radicals (Papaver somniferum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Papaver somniferum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Papaver somniferum)
Superoxide dismutase mt (Papaver somniferum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Papaver somniferum)
Mitochondrial pyruvate metabolism (Papaver somniferum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Papaver somniferum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Papaver somniferum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Papaver somniferum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Papaver somniferum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Papaver somniferum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Papaver somniferum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Papaver somniferum)
Gravitropism under normal or artificial gravity environments (Papaver somniferum)
Root gravitropism (Papaver somniferum)
Root angle formation: elongation and curvature response (Papaver somniferum)
Reactive oxygen species (ROS) homeostasis (Papaver somniferum)
Generation of superoxide radicals (Papaver somniferum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Papaver somniferum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Papaver somniferum)
Superoxide dismutase mt (Papaver somniferum)
H+ [mitochondrial matrix]
Metabolism and regulation (Phaseolus vulgaris)
Amino acid metabolism (Phaseolus vulgaris)
Amino acid biosynthesis (Phaseolus vulgaris)
Arginine degradation (Phaseolus vulgaris)
Conversion of P5C to glutamate (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Detoxification (Phaseolus vulgaris)
Reactive oxygen species (ROS) homeostasis (Phaseolus vulgaris)
Generation of superoxide radicals (Phaseolus vulgaris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phaseolus vulgaris)
Superoxide dismutase mt (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Phaseolus vulgaris)
Mitochondrial pyruvate metabolism (Phaseolus vulgaris)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Phaseolus vulgaris)
H+ [mitochondrial matrix]
TCA cycle (plant) (Phaseolus vulgaris)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Phaseolus vulgaris)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Phaseolus vulgaris)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Phaseolus vulgaris)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Phaseolus vulgaris)
Gravitropism under normal or artificial gravity environments (Phaseolus vulgaris)
Root gravitropism (Phaseolus vulgaris)
Root angle formation: elongation and curvature response (Phaseolus vulgaris)
Reactive oxygen species (ROS) homeostasis (Phaseolus vulgaris)
Generation of superoxide radicals (Phaseolus vulgaris)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phaseolus vulgaris)
Superoxide dismutase mt (Phaseolus vulgaris)
H+ [mitochondrial matrix]
Metabolism and regulation (Phoenix dactylifera)
Detoxification (Phoenix dactylifera)
Reactive oxygen species (ROS) homeostasis (Phoenix dactylifera)
Generation of superoxide radicals (Phoenix dactylifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phoenix dactylifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phoenix dactylifera)
Superoxide dismutase mt (Phoenix dactylifera)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Phoenix dactylifera)
Mitochondrial pyruvate metabolism (Phoenix dactylifera)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Phoenix dactylifera)
H+ [mitochondrial matrix]
TCA cycle (plant) (Phoenix dactylifera)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Phoenix dactylifera)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Phoenix dactylifera)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Phoenix dactylifera)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Phoenix dactylifera)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Phoenix dactylifera)
Gravitropism under normal or artificial gravity environments (Phoenix dactylifera)
Root gravitropism (Phoenix dactylifera)
Root angle formation: elongation and curvature response (Phoenix dactylifera)
Reactive oxygen species (ROS) homeostasis (Phoenix dactylifera)
Generation of superoxide radicals (Phoenix dactylifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phoenix dactylifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phoenix dactylifera)
Superoxide dismutase mt (Phoenix dactylifera)
H+ [mitochondrial matrix]
Metabolism and regulation (Phyllostachys edulis)
Detoxification (Phyllostachys edulis)
Reactive oxygen species (ROS) homeostasis (Phyllostachys edulis)
Generation of superoxide radicals (Phyllostachys edulis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phyllostachys edulis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phyllostachys edulis)
Superoxide dismutase mt (Phyllostachys edulis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Phyllostachys edulis)
Mitochondrial pyruvate metabolism (Phyllostachys edulis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Phyllostachys edulis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Phyllostachys edulis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Phyllostachys edulis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Phyllostachys edulis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Phyllostachys edulis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Phyllostachys edulis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Phyllostachys edulis)
Gravitropism under normal or artificial gravity environments (Phyllostachys edulis)
Root gravitropism (Phyllostachys edulis)
Root angle formation: elongation and curvature response (Phyllostachys edulis)
Reactive oxygen species (ROS) homeostasis (Phyllostachys edulis)
Generation of superoxide radicals (Phyllostachys edulis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Phyllostachys edulis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Phyllostachys edulis)
Superoxide dismutase mt (Phyllostachys edulis)
H+ [mitochondrial matrix]
Metabolism and regulation (Physcomitrella patens)
Amino acid metabolism (Physcomitrella patens)
Amino acid biosynthesis (Physcomitrella patens)
Arginine degradation (Physcomitrella patens)
Conversion of P5C to glutamate (Physcomitrella patens)
H+ [mitochondrial matrix]
Detoxification (Physcomitrella patens)
Reactive oxygen species (ROS) homeostasis (Physcomitrella patens)
Removal of superoxide radicals (Physcomitrella patens)
Superoxide dismutase mt (Physcomitrella patens)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Physcomitrella patens)
Mitochondrial pyruvate metabolism (Physcomitrella patens)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Physcomitrella patens)
H+ [mitochondrial matrix]
TCA cycle (plant) (Physcomitrella patens)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Physcomitrella patens)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Physcomitrella patens)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Physcomitrella patens)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Physcomitrella patens)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Physcomitrella patens)
Gravitropism under normal or artificial gravity environments (Physcomitrella patens)
Root gravitropism (Physcomitrella patens)
Root angle formation: elongation and curvature response (Physcomitrella patens)
Reactive oxygen species (ROS) homeostasis (Physcomitrella patens)
Removal of superoxide radicals (Physcomitrella patens)
Superoxide dismutase mt (Physcomitrella patens)
H+ [mitochondrial matrix]
Metabolism and regulation (Picea abies)
Detoxification (Picea abies)
Reactive oxygen species (ROS) homeostasis (Picea abies)
Generation of superoxide radicals (Picea abies)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Picea abies)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Picea abies)
Superoxide dismutase mt (Picea abies)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Picea abies)
Mitochondrial pyruvate metabolism (Picea abies)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Picea abies)
H+ [mitochondrial matrix]
TCA cycle (plant) (Picea abies)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Picea abies)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Picea abies)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Picea abies)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Picea abies)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Picea abies)
Gravitropism under normal or artificial gravity environments (Picea abies)
Root gravitropism (Picea abies)
Root angle formation: elongation and curvature response (Picea abies)
Reactive oxygen species (ROS) homeostasis (Picea abies)
Generation of superoxide radicals (Picea abies)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Picea abies)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Picea abies)
Superoxide dismutase mt (Picea abies)
H+ [mitochondrial matrix]
Metabolism and regulation (Pinus taeda)
Detoxification (Pinus taeda)
Reactive oxygen species (ROS) homeostasis (Pinus taeda)
Generation of superoxide radicals (Pinus taeda)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pinus taeda)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pinus taeda)
Superoxide dismutase mt (Pinus taeda)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Pinus taeda)
Mitochondrial pyruvate metabolism (Pinus taeda)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Pinus taeda)
H+ [mitochondrial matrix]
TCA cycle (plant) (Pinus taeda)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Pinus taeda)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Pinus taeda)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Pinus taeda)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Pinus taeda)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Pinus taeda)
Gravitropism under normal or artificial gravity environments (Pinus taeda)
Root gravitropism (Pinus taeda)
Root angle formation: elongation and curvature response (Pinus taeda)
Reactive oxygen species (ROS) homeostasis (Pinus taeda)
Generation of superoxide radicals (Pinus taeda)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pinus taeda)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pinus taeda)
Superoxide dismutase mt (Pinus taeda)
H+ [mitochondrial matrix]
Metabolism and regulation (Pistacia vera)
Amino acid metabolism (Pistacia vera)
Amino acid biosynthesis (Pistacia vera)
Arginine degradation (Pistacia vera)
Conversion of P5C to glutamate (Pistacia vera)
H+ [mitochondrial matrix]
Detoxification (Pistacia vera)
Reactive oxygen species (ROS) homeostasis (Pistacia vera)
Generation of superoxide radicals (Pistacia vera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pistacia vera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pistacia vera)
Superoxide dismutase mt (Pistacia vera)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Pistacia vera)
Mitochondrial pyruvate metabolism (Pistacia vera)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Pistacia vera)
H+ [mitochondrial matrix]
TCA cycle (plant) (Pistacia vera)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Pistacia vera)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Pistacia vera)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Pistacia vera)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Pistacia vera)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Pistacia vera)
Gravitropism under normal or artificial gravity environments (Pistacia vera)
Root gravitropism (Pistacia vera)
Root angle formation: elongation and curvature response (Pistacia vera)
Reactive oxygen species (ROS) homeostasis (Pistacia vera)
Generation of superoxide radicals (Pistacia vera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pistacia vera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pistacia vera)
Superoxide dismutase mt (Pistacia vera)
H+ [mitochondrial matrix]
Metabolism and regulation (Pisum sativum)
Amino acid metabolism (Pisum sativum)
Amino acid biosynthesis (Pisum sativum)
Arginine degradation (Pisum sativum)
Conversion of P5C to glutamate (Pisum sativum)
H+ [mitochondrial matrix]
Detoxification (Pisum sativum)
Reactive oxygen species (ROS) homeostasis (Pisum sativum)
Generation of superoxide radicals (Pisum sativum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pisum sativum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pisum sativum)
Superoxide dismutase mt (Pisum sativum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Pisum sativum)
Mitochondrial pyruvate metabolism (Pisum sativum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Pisum sativum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Pisum sativum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Pisum sativum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Pisum sativum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Pisum sativum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Pisum sativum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Pisum sativum)
Gravitropism under normal or artificial gravity environments (Pisum sativum)
Root gravitropism (Pisum sativum)
Root angle formation: elongation and curvature response (Pisum sativum)
Reactive oxygen species (ROS) homeostasis (Pisum sativum)
Generation of superoxide radicals (Pisum sativum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Pisum sativum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Pisum sativum)
Superoxide dismutase mt (Pisum sativum)
H+ [mitochondrial matrix]
Metabolism and regulation (Populus trichocarpa)
Amino acid metabolism (Populus trichocarpa)
Amino acid biosynthesis (Populus trichocarpa)
Arginine degradation (Populus trichocarpa)
Conversion of P5C to glutamate (Populus trichocarpa)
H+ [mitochondrial matrix]
Detoxification (Populus trichocarpa)
Reactive oxygen species (ROS) homeostasis (Populus trichocarpa)
Generation of superoxide radicals (Populus trichocarpa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Populus trichocarpa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Populus trichocarpa)
Superoxide dismutase mt (Populus trichocarpa)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Populus trichocarpa)
Mitochondrial pyruvate metabolism (Populus trichocarpa)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Populus trichocarpa)
H+ [mitochondrial matrix]
TCA cycle (plant) (Populus trichocarpa)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Populus trichocarpa)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Populus trichocarpa)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Populus trichocarpa)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Populus trichocarpa)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Populus trichocarpa)
Gravitropism under normal or artificial gravity environments (Populus trichocarpa)
Root gravitropism (Populus trichocarpa)
Root angle formation: elongation and curvature response (Populus trichocarpa)
Reactive oxygen species (ROS) homeostasis (Populus trichocarpa)
Generation of superoxide radicals (Populus trichocarpa)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Populus trichocarpa)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Populus trichocarpa)
Superoxide dismutase mt (Populus trichocarpa)
H+ [mitochondrial matrix]
Metabolism and regulation (Prunus avium)
Amino acid metabolism (Prunus avium)
Amino acid biosynthesis (Prunus avium)
Arginine degradation (Prunus avium)
Conversion of P5C to glutamate (Prunus avium)
H+ [mitochondrial matrix]
Detoxification (Prunus avium)
Reactive oxygen species (ROS) homeostasis (Prunus avium)
Generation of superoxide radicals (Prunus avium)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Prunus avium)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Prunus avium)
Superoxide dismutase mt (Prunus avium)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Prunus avium)
Mitochondrial pyruvate metabolism (Prunus avium)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Prunus avium)
H+ [mitochondrial matrix]
TCA cycle (plant) (Prunus avium)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Prunus avium)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Prunus avium)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Prunus avium)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Prunus avium)
Gravitropism under normal or artificial gravity environments (Prunus avium)
Root gravitropism (Prunus avium)
Root angle formation: elongation and curvature response (Prunus avium)
Reactive oxygen species (ROS) homeostasis (Prunus avium)
Generation of superoxide radicals (Prunus avium)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Prunus avium)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Prunus avium)
Superoxide dismutase mt (Prunus avium)
H+ [mitochondrial matrix]
Metabolism and regulation (Prunus persica)
Amino acid metabolism (Prunus persica)
Amino acid biosynthesis (Prunus persica)
Arginine degradation (Prunus persica)
Conversion of P5C to glutamate (Prunus persica)
H+ [mitochondrial matrix]
Detoxification (Prunus persica)
Reactive oxygen species (ROS) homeostasis (Prunus persica)
Generation of superoxide radicals (Prunus persica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Prunus persica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Prunus persica)
Superoxide dismutase mt (Prunus persica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Prunus persica)
Mitochondrial pyruvate metabolism (Prunus persica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Prunus persica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Prunus persica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Prunus persica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Prunus persica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Prunus persica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Prunus persica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Prunus persica)
Gravitropism under normal or artificial gravity environments (Prunus persica)
Root gravitropism (Prunus persica)
Root angle formation: elongation and curvature response (Prunus persica)
Reactive oxygen species (ROS) homeostasis (Prunus persica)
Generation of superoxide radicals (Prunus persica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Prunus persica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Prunus persica)
Superoxide dismutase mt (Prunus persica)
H+ [mitochondrial matrix]
Metabolism and regulation (Quercus lobata)
Amino acid metabolism (Quercus lobata)
Amino acid biosynthesis (Quercus lobata)
Arginine degradation (Quercus lobata)
Conversion of P5C to glutamate (Quercus lobata)
H+ [mitochondrial matrix]
Detoxification (Quercus lobata)
Reactive oxygen species (ROS) homeostasis (Quercus lobata)
Generation of superoxide radicals (Quercus lobata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Quercus lobata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Quercus lobata)
Superoxide dismutase mt (Quercus lobata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Quercus lobata)
Mitochondrial pyruvate metabolism (Quercus lobata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Quercus lobata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Quercus lobata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Quercus lobata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Quercus lobata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Quercus lobata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Quercus lobata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Quercus lobata)
Gravitropism under normal or artificial gravity environments (Quercus lobata)
Root gravitropism (Quercus lobata)
Root angle formation: elongation and curvature response (Quercus lobata)
Reactive oxygen species (ROS) homeostasis (Quercus lobata)
Generation of superoxide radicals (Quercus lobata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Quercus lobata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Quercus lobata)
Superoxide dismutase mt (Quercus lobata)
H+ [mitochondrial matrix]
Metabolism and regulation (Quercus suber)
Amino acid metabolism (Quercus suber)
Amino acid biosynthesis (Quercus suber)
Arginine degradation (Quercus suber)
Conversion of P5C to glutamate (Quercus suber)
H+ [mitochondrial matrix]
Detoxification (Quercus suber)
Reactive oxygen species (ROS) homeostasis (Quercus suber)
Generation of superoxide radicals (Quercus suber)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Quercus suber)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Quercus suber)
Superoxide dismutase mt (Quercus suber)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Quercus suber)
Mitochondrial pyruvate metabolism (Quercus suber)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Quercus suber)
H+ [mitochondrial matrix]
TCA cycle (plant) (Quercus suber)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Quercus suber)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Quercus suber)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Quercus suber)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Quercus suber)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Quercus suber)
Gravitropism under normal or artificial gravity environments (Quercus suber)
Root gravitropism (Quercus suber)
Root angle formation: elongation and curvature response (Quercus suber)
Reactive oxygen species (ROS) homeostasis (Quercus suber)
Generation of superoxide radicals (Quercus suber)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Quercus suber)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Quercus suber)
Superoxide dismutase mt (Quercus suber)
H+ [mitochondrial matrix]
Metabolism and regulation (Rosa chinensis)
Amino acid metabolism (Rosa chinensis)
Amino acid biosynthesis (Rosa chinensis)
Arginine degradation (Rosa chinensis)
Conversion of P5C to glutamate (Rosa chinensis)
H+ [mitochondrial matrix]
Detoxification (Rosa chinensis)
Reactive oxygen species (ROS) homeostasis (Rosa chinensis)
Generation of superoxide radicals (Rosa chinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Rosa chinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Rosa chinensis)
Superoxide dismutase mt (Rosa chinensis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Rosa chinensis)
Mitochondrial pyruvate metabolism (Rosa chinensis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Rosa chinensis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Rosa chinensis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Rosa chinensis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Rosa chinensis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Rosa chinensis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Rosa chinensis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Rosa chinensis)
Gravitropism under normal or artificial gravity environments (Rosa chinensis)
Root gravitropism (Rosa chinensis)
Root angle formation: elongation and curvature response (Rosa chinensis)
Reactive oxygen species (ROS) homeostasis (Rosa chinensis)
Generation of superoxide radicals (Rosa chinensis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Rosa chinensis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Rosa chinensis)
Superoxide dismutase mt (Rosa chinensis)
H+ [mitochondrial matrix]
Metabolism and regulation (Saccharum spontaneum)
Amino acid metabolism (Saccharum spontaneum)
Amino acid biosynthesis (Saccharum spontaneum)
Arginine degradation (Saccharum spontaneum)
Conversion of P5C to glutamate (Saccharum spontaneum)
H+ [mitochondrial matrix]
Detoxification (Saccharum spontaneum)
Reactive oxygen species (ROS) homeostasis (Saccharum spontaneum)
Generation of superoxide radicals (Saccharum spontaneum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Saccharum spontaneum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Saccharum spontaneum)
Superoxide dismutase mt (Saccharum spontaneum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Saccharum spontaneum)
Mitochondrial pyruvate metabolism (Saccharum spontaneum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Saccharum spontaneum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Saccharum spontaneum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Saccharum spontaneum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Saccharum spontaneum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Saccharum spontaneum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Saccharum spontaneum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Saccharum spontaneum)
Gravitropism under normal or artificial gravity environments (Saccharum spontaneum)
Root gravitropism (Saccharum spontaneum)
Root angle formation: elongation and curvature response (Saccharum spontaneum)
Reactive oxygen species (ROS) homeostasis (Saccharum spontaneum)
Generation of superoxide radicals (Saccharum spontaneum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Saccharum spontaneum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Saccharum spontaneum)
Superoxide dismutase mt (Saccharum spontaneum)
H+ [mitochondrial matrix]
Metabolism and regulation (Salvia hispanica)
Detoxification (Salvia hispanica)
Reactive oxygen species (ROS) homeostasis (Salvia hispanica)
Generation of superoxide radicals (Salvia hispanica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Salvia hispanica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Salvia hispanica)
Superoxide dismutase mt (Salvia hispanica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Salvia hispanica)
Mitochondrial pyruvate metabolism (Salvia hispanica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Salvia hispanica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Salvia hispanica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Salvia hispanica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Salvia hispanica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Salvia hispanica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Salvia hispanica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Salvia hispanica)
Gravitropism under normal or artificial gravity environments (Salvia hispanica)
Root gravitropism (Salvia hispanica)
Root angle formation: elongation and curvature response (Salvia hispanica)
Reactive oxygen species (ROS) homeostasis (Salvia hispanica)
Generation of superoxide radicals (Salvia hispanica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Salvia hispanica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Salvia hispanica)
Superoxide dismutase mt (Salvia hispanica)
H+ [mitochondrial matrix]
Metabolism and regulation (Secale cereale)
Amino acid metabolism (Secale cereale)
Amino acid biosynthesis (Secale cereale)
Arginine degradation (Secale cereale)
Conversion of P5C to glutamate (Secale cereale)
H+ [mitochondrial matrix]
Detoxification (Secale cereale)
Reactive oxygen species (ROS) homeostasis (Secale cereale)
Generation of superoxide radicals (Secale cereale)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Secale cereale)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Secale cereale)
Superoxide dismutase mt (Secale cereale)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Secale cereale)
Mitochondrial pyruvate metabolism (Secale cereale)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Secale cereale)
H+ [mitochondrial matrix]
TCA cycle (plant) (Secale cereale)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Secale cereale)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Secale cereale)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Secale cereale)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Secale cereale)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Secale cereale)
Gravitropism under normal or artificial gravity environments (Secale cereale)
Root gravitropism (Secale cereale)
Root angle formation: elongation and curvature response (Secale cereale)
Reactive oxygen species (ROS) homeostasis (Secale cereale)
Generation of superoxide radicals (Secale cereale)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Secale cereale)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Secale cereale)
Superoxide dismutase mt (Secale cereale)
H+ [mitochondrial matrix]
Metabolism and regulation (Selaginella moellendorffii)
Amino acid metabolism (Selaginella moellendorffii)
Amino acid biosynthesis (Selaginella moellendorffii)
Arginine degradation (Selaginella moellendorffii)
Conversion of P5C to glutamate (Selaginella moellendorffii)
H+ [mitochondrial matrix]
Detoxification (Selaginella moellendorffii)
Reactive oxygen species (ROS) homeostasis (Selaginella moellendorffii)
Removal of superoxide radicals (Selaginella moellendorffii)
Superoxide dismutase mt (Selaginella moellendorffii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Selaginella moellendorffii)
Mitochondrial pyruvate metabolism (Selaginella moellendorffii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Selaginella moellendorffii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Selaginella moellendorffii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Selaginella moellendorffii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Selaginella moellendorffii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Selaginella moellendorffii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Selaginella moellendorffii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Selaginella moellendorffii)
Gravitropism under normal or artificial gravity environments (Selaginella moellendorffii)
Root gravitropism (Selaginella moellendorffii)
Root angle formation: elongation and curvature response (Selaginella moellendorffii)
Reactive oxygen species (ROS) homeostasis (Selaginella moellendorffii)
Removal of superoxide radicals (Selaginella moellendorffii)
Superoxide dismutase mt (Selaginella moellendorffii)
H+ [mitochondrial matrix]
Metabolism and regulation (Sesamum indicum)
Amino acid metabolism (Sesamum indicum)
Amino acid biosynthesis (Sesamum indicum)
Arginine degradation (Sesamum indicum)
Conversion of P5C to glutamate (Sesamum indicum)
H+ [mitochondrial matrix]
Detoxification (Sesamum indicum)
Reactive oxygen species (ROS) homeostasis (Sesamum indicum)
Generation of superoxide radicals (Sesamum indicum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Sesamum indicum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Sesamum indicum)
Superoxide dismutase mt (Sesamum indicum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Sesamum indicum)
Mitochondrial pyruvate metabolism (Sesamum indicum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Sesamum indicum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Sesamum indicum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Sesamum indicum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Sesamum indicum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Sesamum indicum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Sesamum indicum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Sesamum indicum)
Gravitropism under normal or artificial gravity environments (Sesamum indicum)
Root gravitropism (Sesamum indicum)
Root angle formation: elongation and curvature response (Sesamum indicum)
Reactive oxygen species (ROS) homeostasis (Sesamum indicum)
Generation of superoxide radicals (Sesamum indicum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Sesamum indicum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Sesamum indicum)
Superoxide dismutase mt (Sesamum indicum)
H+ [mitochondrial matrix]
Metabolism and regulation (Setaria italica)
Amino acid metabolism (Setaria italica)
Amino acid biosynthesis (Setaria italica)
Arginine degradation (Setaria italica)
Conversion of P5C to glutamate (Setaria italica)
H+ [mitochondrial matrix]
Detoxification (Setaria italica)
Reactive oxygen species (ROS) homeostasis (Setaria italica)
Generation of superoxide radicals (Setaria italica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Setaria italica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Setaria italica)
Superoxide dismutase mt (Setaria italica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Setaria italica)
Mitochondrial pyruvate metabolism (Setaria italica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Setaria italica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Setaria italica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Setaria italica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Setaria italica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Setaria italica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Setaria italica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Setaria italica)
Gravitropism under normal or artificial gravity environments (Setaria italica)
Root gravitropism (Setaria italica)
Root angle formation: elongation and curvature response (Setaria italica)
Reactive oxygen species (ROS) homeostasis (Setaria italica)
Generation of superoxide radicals (Setaria italica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Setaria italica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Setaria italica)
Superoxide dismutase mt (Setaria italica)
H+ [mitochondrial matrix]
Metabolism and regulation (Setaria viridis)
Amino acid metabolism (Setaria viridis)
Amino acid biosynthesis (Setaria viridis)
Arginine degradation (Setaria viridis)
Conversion of P5C to glutamate (Setaria viridis)
H+ [mitochondrial matrix]
Detoxification (Setaria viridis)
Reactive oxygen species (ROS) homeostasis (Setaria viridis)
Generation of superoxide radicals (Setaria viridis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Setaria viridis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Setaria viridis)
Superoxide dismutase mt (Setaria viridis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Setaria viridis)
Mitochondrial pyruvate metabolism (Setaria viridis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Setaria viridis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Setaria viridis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Setaria viridis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Setaria viridis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Setaria viridis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Setaria viridis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Setaria viridis)
Gravitropism under normal or artificial gravity environments (Setaria viridis)
Root gravitropism (Setaria viridis)
Root angle formation: elongation and curvature response (Setaria viridis)
Reactive oxygen species (ROS) homeostasis (Setaria viridis)
Generation of superoxide radicals (Setaria viridis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Setaria viridis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Setaria viridis)
Superoxide dismutase mt (Setaria viridis)
H+ [mitochondrial matrix]
Metabolism and regulation (Solanum lycopersicum)
Amino acid metabolism (Solanum lycopersicum)
Amino acid biosynthesis (Solanum lycopersicum)
Arginine degradation (Solanum lycopersicum)
Conversion of P5C to glutamate (Solanum lycopersicum)
H+ [mitochondrial matrix]
Detoxification (Solanum lycopersicum)
Reactive oxygen species (ROS) homeostasis (Solanum lycopersicum)
Generation of superoxide radicals (Solanum lycopersicum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Solanum lycopersicum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Solanum lycopersicum)
Superoxide dismutase mt (Solanum lycopersicum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Solanum lycopersicum)
Mitochondrial pyruvate metabolism (Solanum lycopersicum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Solanum lycopersicum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Solanum lycopersicum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Solanum lycopersicum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Solanum lycopersicum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Solanum lycopersicum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Solanum lycopersicum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Solanum lycopersicum)
Gravitropism under normal or artificial gravity environments (Solanum lycopersicum)
Root gravitropism (Solanum lycopersicum)
Root angle formation: elongation and curvature response (Solanum lycopersicum)
Reactive oxygen species (ROS) homeostasis (Solanum lycopersicum)
Generation of superoxide radicals (Solanum lycopersicum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Solanum lycopersicum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Solanum lycopersicum)
Superoxide dismutase mt (Solanum lycopersicum)
H+ [mitochondrial matrix]
Metabolism and regulation (Solanum tuberosum)
Amino acid metabolism (Solanum tuberosum)
Amino acid biosynthesis (Solanum tuberosum)
Arginine degradation (Solanum tuberosum)
Conversion of P5C to glutamate (Solanum tuberosum)
H+ [mitochondrial matrix]
Detoxification (Solanum tuberosum)
Reactive oxygen species (ROS) homeostasis (Solanum tuberosum)
Generation of superoxide radicals (Solanum tuberosum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Solanum tuberosum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Solanum tuberosum)
Superoxide dismutase mt (Solanum tuberosum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Solanum tuberosum)
Mitochondrial pyruvate metabolism (Solanum tuberosum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Solanum tuberosum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Solanum tuberosum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Solanum tuberosum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Solanum tuberosum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Solanum tuberosum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Solanum tuberosum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Solanum tuberosum)
Gravitropism under normal or artificial gravity environments (Solanum tuberosum)
Root gravitropism (Solanum tuberosum)
Root angle formation: elongation and curvature response (Solanum tuberosum)
Reactive oxygen species (ROS) homeostasis (Solanum tuberosum)
Generation of superoxide radicals (Solanum tuberosum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Solanum tuberosum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Solanum tuberosum)
Superoxide dismutase mt (Solanum tuberosum)
H+ [mitochondrial matrix]
Metabolism and regulation (Sorghum bicolor)
Amino acid metabolism (Sorghum bicolor)
Amino acid biosynthesis (Sorghum bicolor)
Arginine degradation (Sorghum bicolor)
Conversion of P5C to glutamate (Sorghum bicolor)
H+ [mitochondrial matrix]
Detoxification (Sorghum bicolor)
Reactive oxygen species (ROS) homeostasis (Sorghum bicolor)
Generation of superoxide radicals (Sorghum bicolor)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Sorghum bicolor)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Sorghum bicolor)
Superoxide dismutase mt (Sorghum bicolor)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Sorghum bicolor)
Mitochondrial pyruvate metabolism (Sorghum bicolor)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Sorghum bicolor)
H+ [mitochondrial matrix]
TCA cycle (plant) (Sorghum bicolor)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Sorghum bicolor)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Sorghum bicolor)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Sorghum bicolor)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Sorghum bicolor)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Sorghum bicolor)
Gravitropism under normal or artificial gravity environments (Sorghum bicolor)
Root gravitropism (Sorghum bicolor)
Root angle formation: elongation and curvature response (Sorghum bicolor)
Reactive oxygen species (ROS) homeostasis (Sorghum bicolor)
Generation of superoxide radicals (Sorghum bicolor)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Sorghum bicolor)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Sorghum bicolor)
Superoxide dismutase mt (Sorghum bicolor)
H+ [mitochondrial matrix]
Metabolism and regulation (Synechocystis sp. PCC 6803)
Generation of precursor metabolites and energy (Synechocystis sp. PCC 6803)
TCA cycle (plant) (Synechocystis sp. PCC 6803)
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Synechocystis sp. PCC 6803)
H+ [mitochondrial matrix]
Metabolism and regulation (Theobroma cacao)
Amino acid metabolism (Theobroma cacao)
Amino acid biosynthesis (Theobroma cacao)
Arginine degradation (Theobroma cacao)
Conversion of P5C to glutamate (Theobroma cacao)
H+ [mitochondrial matrix]
Detoxification (Theobroma cacao)
Reactive oxygen species (ROS) homeostasis (Theobroma cacao)
Generation of superoxide radicals (Theobroma cacao)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Theobroma cacao)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Theobroma cacao)
Superoxide dismutase mt (Theobroma cacao)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Theobroma cacao)
Mitochondrial pyruvate metabolism (Theobroma cacao)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Theobroma cacao)
H+ [mitochondrial matrix]
TCA cycle (plant) (Theobroma cacao)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Theobroma cacao)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Theobroma cacao)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Theobroma cacao)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Theobroma cacao)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Theobroma cacao)
Gravitropism under normal or artificial gravity environments (Theobroma cacao)
Root gravitropism (Theobroma cacao)
Root angle formation: elongation and curvature response (Theobroma cacao)
Reactive oxygen species (ROS) homeostasis (Theobroma cacao)
Generation of superoxide radicals (Theobroma cacao)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Theobroma cacao)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Theobroma cacao)
Superoxide dismutase mt (Theobroma cacao)
H+ [mitochondrial matrix]
Metabolism and regulation (Trifolium pratense)
Amino acid metabolism (Trifolium pratense)
Amino acid biosynthesis (Trifolium pratense)
Arginine degradation (Trifolium pratense)
Conversion of P5C to glutamate (Trifolium pratense)
H+ [mitochondrial matrix]
Detoxification (Trifolium pratense)
Reactive oxygen species (ROS) homeostasis (Trifolium pratense)
Generation of superoxide radicals (Trifolium pratense)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Trifolium pratense)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Trifolium pratense)
Superoxide dismutase mt (Trifolium pratense)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Trifolium pratense)
Mitochondrial pyruvate metabolism (Trifolium pratense)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Trifolium pratense)
H+ [mitochondrial matrix]
TCA cycle (plant) (Trifolium pratense)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Trifolium pratense)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Trifolium pratense)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Trifolium pratense)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Trifolium pratense)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Trifolium pratense)
Gravitropism under normal or artificial gravity environments (Trifolium pratense)
Root gravitropism (Trifolium pratense)
Root angle formation: elongation and curvature response (Trifolium pratense)
Reactive oxygen species (ROS) homeostasis (Trifolium pratense)
Generation of superoxide radicals (Trifolium pratense)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Trifolium pratense)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Trifolium pratense)
Superoxide dismutase mt (Trifolium pratense)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum aestivum)
Amino acid metabolism (Triticum aestivum)
Amino acid biosynthesis (Triticum aestivum)
Arginine degradation (Triticum aestivum)
Conversion of P5C to glutamate (Triticum aestivum)
H+ [mitochondrial matrix]
Detoxification (Triticum aestivum)
Reactive oxygen species (ROS) homeostasis (Triticum aestivum)
Generation of superoxide radicals (Triticum aestivum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum aestivum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum aestivum)
Superoxide dismutase mt (Triticum aestivum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum aestivum)
Mitochondrial pyruvate metabolism (Triticum aestivum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum aestivum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum aestivum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum aestivum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum aestivum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum aestivum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum aestivum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum aestivum)
Gravitropism under normal or artificial gravity environments (Triticum aestivum)
Root gravitropism (Triticum aestivum)
Root angle formation: elongation and curvature response (Triticum aestivum)
Reactive oxygen species (ROS) homeostasis (Triticum aestivum)
Generation of superoxide radicals (Triticum aestivum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum aestivum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum aestivum)
Superoxide dismutase mt (Triticum aestivum)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum dicoccoides)
Amino acid metabolism (Triticum dicoccoides)
Amino acid biosynthesis (Triticum dicoccoides)
Arginine degradation (Triticum dicoccoides)
Conversion of P5C to glutamate (Triticum dicoccoides)
H+ [mitochondrial matrix]
Detoxification (Triticum dicoccoides)
Reactive oxygen species (ROS) homeostasis (Triticum dicoccoides)
Generation of superoxide radicals (Triticum dicoccoides)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum dicoccoides)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum dicoccoides)
Superoxide dismutase mt (Triticum dicoccoides)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum dicoccoides)
Mitochondrial pyruvate metabolism (Triticum dicoccoides)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum dicoccoides)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum dicoccoides)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum dicoccoides)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum dicoccoides)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum dicoccoides)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum dicoccoides)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum dicoccoides)
Gravitropism under normal or artificial gravity environments (Triticum dicoccoides)
Root gravitropism (Triticum dicoccoides)
Root angle formation: elongation and curvature response (Triticum dicoccoides)
Reactive oxygen species (ROS) homeostasis (Triticum dicoccoides)
Generation of superoxide radicals (Triticum dicoccoides)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum dicoccoides)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum dicoccoides)
Superoxide dismutase mt (Triticum dicoccoides)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum spelta subsp. spelta)
Amino acid metabolism (Triticum spelta subsp. spelta)
Amino acid biosynthesis (Triticum spelta subsp. spelta)
Arginine degradation (Triticum spelta subsp. spelta)
Conversion of P5C to glutamate (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Detoxification (Triticum spelta subsp. spelta)
Reactive oxygen species (ROS) homeostasis (Triticum spelta subsp. spelta)
Generation of superoxide radicals (Triticum spelta subsp. spelta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum spelta subsp. spelta)
Superoxide dismutase mt (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum spelta subsp. spelta)
Mitochondrial pyruvate metabolism (Triticum spelta subsp. spelta)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum spelta subsp. spelta)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum spelta subsp. spelta)
Gravitropism under normal or artificial gravity environments (Triticum spelta subsp. spelta)
Root gravitropism (Triticum spelta subsp. spelta)
Root angle formation: elongation and curvature response (Triticum spelta subsp. spelta)
Reactive oxygen species (ROS) homeostasis (Triticum spelta subsp. spelta)
Generation of superoxide radicals (Triticum spelta subsp. spelta)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum spelta subsp. spelta)
Superoxide dismutase mt (Triticum spelta subsp. spelta)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum timopheevii subsp. timopheevii)
Amino acid metabolism (Triticum timopheevii subsp. timopheevii)
Amino acid biosynthesis (Triticum timopheevii subsp. timopheevii)
Arginine degradation (Triticum timopheevii subsp. timopheevii)
Conversion of P5C to glutamate (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Detoxification (Triticum timopheevii subsp. timopheevii)
Reactive oxygen species (ROS) homeostasis (Triticum timopheevii subsp. timopheevii)
Generation of superoxide radicals (Triticum timopheevii subsp. timopheevii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum timopheevii subsp. timopheevii)
Superoxide dismutase mt (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum timopheevii subsp. timopheevii)
Mitochondrial pyruvate metabolism (Triticum timopheevii subsp. timopheevii)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum timopheevii subsp. timopheevii)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum timopheevii subsp. timopheevii)
Gravitropism under normal or artificial gravity environments (Triticum timopheevii subsp. timopheevii)
Root gravitropism (Triticum timopheevii subsp. timopheevii)
Root angle formation: elongation and curvature response (Triticum timopheevii subsp. timopheevii)
Reactive oxygen species (ROS) homeostasis (Triticum timopheevii subsp. timopheevii)
Generation of superoxide radicals (Triticum timopheevii subsp. timopheevii)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum timopheevii subsp. timopheevii)
Superoxide dismutase mt (Triticum timopheevii subsp. timopheevii)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum turgidum)
Amino acid metabolism (Triticum turgidum)
Amino acid biosynthesis (Triticum turgidum)
Arginine degradation (Triticum turgidum)
Conversion of P5C to glutamate (Triticum turgidum)
H+ [mitochondrial matrix]
Detoxification (Triticum turgidum)
Reactive oxygen species (ROS) homeostasis (Triticum turgidum)
Generation of superoxide radicals (Triticum turgidum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum turgidum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum turgidum)
Superoxide dismutase mt (Triticum turgidum)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum turgidum)
Mitochondrial pyruvate metabolism (Triticum turgidum)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum turgidum)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum turgidum)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum turgidum)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum turgidum)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum turgidum)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum turgidum)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum turgidum)
Gravitropism under normal or artificial gravity environments (Triticum turgidum)
Root gravitropism (Triticum turgidum)
Root angle formation: elongation and curvature response (Triticum turgidum)
Reactive oxygen species (ROS) homeostasis (Triticum turgidum)
Generation of superoxide radicals (Triticum turgidum)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum turgidum)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum turgidum)
Superoxide dismutase mt (Triticum turgidum)
H+ [mitochondrial matrix]
Metabolism and regulation (Triticum urartu)
Amino acid metabolism (Triticum urartu)
Amino acid biosynthesis (Triticum urartu)
Arginine degradation (Triticum urartu)
Conversion of P5C to glutamate (Triticum urartu)
H+ [mitochondrial matrix]
Detoxification (Triticum urartu)
Reactive oxygen species (ROS) homeostasis (Triticum urartu)
Generation of superoxide radicals (Triticum urartu)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum urartu)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum urartu)
Superoxide dismutase mt (Triticum urartu)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Triticum urartu)
Mitochondrial pyruvate metabolism (Triticum urartu)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Triticum urartu)
H+ [mitochondrial matrix]
TCA cycle (plant) (Triticum urartu)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Triticum urartu)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Triticum urartu)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Triticum urartu)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Triticum urartu)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Triticum urartu)
Gravitropism under normal or artificial gravity environments (Triticum urartu)
Root gravitropism (Triticum urartu)
Root angle formation: elongation and curvature response (Triticum urartu)
Reactive oxygen species (ROS) homeostasis (Triticum urartu)
Generation of superoxide radicals (Triticum urartu)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Triticum urartu)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Triticum urartu)
Superoxide dismutase mt (Triticum urartu)
H+ [mitochondrial matrix]
Metabolism and regulation (Vicia faba var. faba)
Amino acid metabolism (Vicia faba var. faba)
Amino acid biosynthesis (Vicia faba var. faba)
Arginine degradation (Vicia faba var. faba)
Conversion of P5C to glutamate (Vicia faba var. faba)
H+ [mitochondrial matrix]
Detoxification (Vicia faba var. faba)
Reactive oxygen species (ROS) homeostasis (Vicia faba var. faba)
Generation of superoxide radicals (Vicia faba var. faba)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vicia faba var. faba)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vicia faba var. faba)
Superoxide dismutase mt (Vicia faba var. faba)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Vicia faba var. faba)
Mitochondrial pyruvate metabolism (Vicia faba var. faba)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Vicia faba var. faba)
H+ [mitochondrial matrix]
TCA cycle (plant) (Vicia faba var. faba)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Vicia faba var. faba)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Vicia faba var. faba)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Vicia faba var. faba)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Vicia faba var. faba)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Vicia faba var. faba)
Gravitropism under normal or artificial gravity environments (Vicia faba var. faba)
Root gravitropism (Vicia faba var. faba)
Root angle formation: elongation and curvature response (Vicia faba var. faba)
Reactive oxygen species (ROS) homeostasis (Vicia faba var. faba)
Generation of superoxide radicals (Vicia faba var. faba)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vicia faba var. faba)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vicia faba var. faba)
Superoxide dismutase mt (Vicia faba var. faba)
H+ [mitochondrial matrix]
Metabolism and regulation (Vigna angularis)
Amino acid metabolism (Vigna angularis)
Amino acid biosynthesis (Vigna angularis)
Arginine degradation (Vigna angularis)
Conversion of P5C to glutamate (Vigna angularis)
H+ [mitochondrial matrix]
Detoxification (Vigna angularis)
Reactive oxygen species (ROS) homeostasis (Vigna angularis)
Generation of superoxide radicals (Vigna angularis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna angularis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna angularis)
Superoxide dismutase mt (Vigna angularis)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Vigna angularis)
Mitochondrial pyruvate metabolism (Vigna angularis)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Vigna angularis)
H+ [mitochondrial matrix]
TCA cycle (plant) (Vigna angularis)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Vigna angularis)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Vigna angularis)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Vigna angularis)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Vigna angularis)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Vigna angularis)
Gravitropism under normal or artificial gravity environments (Vigna angularis)
Root gravitropism (Vigna angularis)
Root angle formation: elongation and curvature response (Vigna angularis)
Reactive oxygen species (ROS) homeostasis (Vigna angularis)
Generation of superoxide radicals (Vigna angularis)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna angularis)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna angularis)
Superoxide dismutase mt (Vigna angularis)
H+ [mitochondrial matrix]
Metabolism and regulation (Vigna radiata)
Amino acid metabolism (Vigna radiata)
Amino acid biosynthesis (Vigna radiata)
Arginine degradation (Vigna radiata)
Conversion of P5C to glutamate (Vigna radiata)
H+ [mitochondrial matrix]
Detoxification (Vigna radiata)
Reactive oxygen species (ROS) homeostasis (Vigna radiata)
Generation of superoxide radicals (Vigna radiata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna radiata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna radiata)
Superoxide dismutase mt (Vigna radiata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Vigna radiata)
Mitochondrial pyruvate metabolism (Vigna radiata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Vigna radiata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Vigna radiata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Vigna radiata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Vigna radiata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Vigna radiata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Vigna radiata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Vigna radiata)
Gravitropism under normal or artificial gravity environments (Vigna radiata)
Root gravitropism (Vigna radiata)
Root angle formation: elongation and curvature response (Vigna radiata)
Reactive oxygen species (ROS) homeostasis (Vigna radiata)
Generation of superoxide radicals (Vigna radiata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna radiata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna radiata)
Superoxide dismutase mt (Vigna radiata)
H+ [mitochondrial matrix]
Metabolism and regulation (Vigna unguiculata)
Amino acid metabolism (Vigna unguiculata)
Amino acid biosynthesis (Vigna unguiculata)
Arginine degradation (Vigna unguiculata)
Conversion of P5C to glutamate (Vigna unguiculata)
H+ [mitochondrial matrix]
Detoxification (Vigna unguiculata)
Reactive oxygen species (ROS) homeostasis (Vigna unguiculata)
Generation of superoxide radicals (Vigna unguiculata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna unguiculata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna unguiculata)
Superoxide dismutase mt (Vigna unguiculata)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Vigna unguiculata)
Mitochondrial pyruvate metabolism (Vigna unguiculata)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Vigna unguiculata)
H+ [mitochondrial matrix]
TCA cycle (plant) (Vigna unguiculata)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Vigna unguiculata)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Vigna unguiculata)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Vigna unguiculata)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Vigna unguiculata)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Vigna unguiculata)
Gravitropism under normal or artificial gravity environments (Vigna unguiculata)
Root gravitropism (Vigna unguiculata)
Root angle formation: elongation and curvature response (Vigna unguiculata)
Reactive oxygen species (ROS) homeostasis (Vigna unguiculata)
Generation of superoxide radicals (Vigna unguiculata)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vigna unguiculata)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vigna unguiculata)
Superoxide dismutase mt (Vigna unguiculata)
H+ [mitochondrial matrix]
Metabolism and regulation (Vitis vinifera)
Amino acid metabolism (Vitis vinifera)
Amino acid biosynthesis (Vitis vinifera)
Arginine degradation (Vitis vinifera)
Conversion of P5C to glutamate (Vitis vinifera)
H+ [mitochondrial matrix]
Detoxification (Vitis vinifera)
Reactive oxygen species (ROS) homeostasis (Vitis vinifera)
Generation of superoxide radicals (Vitis vinifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vitis vinifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vitis vinifera)
Superoxide dismutase mt (Vitis vinifera)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Vitis vinifera)
Mitochondrial pyruvate metabolism (Vitis vinifera)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Vitis vinifera)
H+ [mitochondrial matrix]
TCA cycle (plant) (Vitis vinifera)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Vitis vinifera)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Vitis vinifera)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Vitis vinifera)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Vitis vinifera)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Vitis vinifera)
Gravitropism under normal or artificial gravity environments (Vitis vinifera)
Root gravitropism (Vitis vinifera)
Root angle formation: elongation and curvature response (Vitis vinifera)
Reactive oxygen species (ROS) homeostasis (Vitis vinifera)
Generation of superoxide radicals (Vitis vinifera)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Vitis vinifera)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Vitis vinifera)
Superoxide dismutase mt (Vitis vinifera)
H+ [mitochondrial matrix]
Metabolism and regulation (Zea mays)
Amino acid metabolism (Zea mays)
Amino acid biosynthesis (Zea mays)
Arginine degradation (Zea mays)
Conversion of P5C to glutamate (Zea mays)
H+ [mitochondrial matrix]
Detoxification (Zea mays)
Reactive oxygen species (ROS) homeostasis (Zea mays)
Generation of superoxide radicals (Zea mays)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zea mays)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zea mays)
Superoxide dismutase mt (Zea mays)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Zea mays)
Mitochondrial pyruvate metabolism (Zea mays)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Zea mays)
H+ [mitochondrial matrix]
TCA cycle (plant) (Zea mays)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Zea mays)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Zea mays)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Zea mays)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Zea mays)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Zea mays)
Gravitropism under normal or artificial gravity environments (Zea mays)
Root gravitropism (Zea mays)
Root angle formation: elongation and curvature response (Zea mays)
Reactive oxygen species (ROS) homeostasis (Zea mays)
Generation of superoxide radicals (Zea mays)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zea mays)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zea mays)
Superoxide dismutase mt (Zea mays)
H+ [mitochondrial matrix]
Metabolism and regulation (Zea mays ver5)
Amino acid metabolism (Zea mays ver5)
Amino acid biosynthesis (Zea mays ver5)
Arginine degradation (Zea mays ver5)
Conversion of P5C to glutamate (Zea mays ver5)
H+ [mitochondrial matrix]
Detoxification (Zea mays ver5)
Reactive oxygen species (ROS) homeostasis (Zea mays ver5)
Generation of superoxide radicals (Zea mays ver5)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zea mays ver5)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zea mays ver5)
Superoxide dismutase mt (Zea mays ver5)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Zea mays ver5)
Mitochondrial pyruvate metabolism (Zea mays ver5)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Zea mays ver5)
H+ [mitochondrial matrix]
TCA cycle (plant) (Zea mays ver5)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Zea mays ver5)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Zea mays ver5)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Zea mays ver5)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Zea mays ver5)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Zea mays ver5)
Gravitropism under normal or artificial gravity environments (Zea mays ver5)
Root gravitropism (Zea mays ver5)
Root angle formation: elongation and curvature response (Zea mays ver5)
Reactive oxygen species (ROS) homeostasis (Zea mays ver5)
Generation of superoxide radicals (Zea mays ver5)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zea mays ver5)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zea mays ver5)
Superoxide dismutase mt (Zea mays ver5)
H+ [mitochondrial matrix]
Metabolism and regulation (Zoysia japonica)
Detoxification (Zoysia japonica)
Reactive oxygen species (ROS) homeostasis (Zoysia japonica)
Generation of superoxide radicals (Zoysia japonica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zoysia japonica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zoysia japonica)
Superoxide dismutase mt (Zoysia japonica)
H+ [mitochondrial matrix]
Generation of precursor metabolites and energy (Zoysia japonica)
Mitochondrial pyruvate metabolism (Zoysia japonica)
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+ (Zoysia japonica)
H+ [mitochondrial matrix]
TCA cycle (plant) (Zoysia japonica)
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+ (Zoysia japonica)
H+ [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix] (Zoysia japonica)
H+ [mitochondrial matrix]
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+ (Zoysia japonica)
H+ [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+ (Zoysia japonica)
H+ [mitochondrial matrix]
Responses to stimuli: abiotic stimuli and stresses (Zoysia japonica)
Gravitropism under normal or artificial gravity environments (Zoysia japonica)
Root gravitropism (Zoysia japonica)
Root angle formation: elongation and curvature response (Zoysia japonica)
Reactive oxygen species (ROS) homeostasis (Zoysia japonica)
Generation of superoxide radicals (Zoysia japonica)
RBOHs generate superoxide from oxygen during respiration in the mitochondria (Zoysia japonica)
H+ [mitochondrial matrix]
Removal of superoxide radicals (Zoysia japonica)
Superoxide dismutase mt (Zoysia japonica)
H+ [mitochondrial matrix]
External Reference Information
External Reference
hydron [ChEBI:15378]
Participant Of
input
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
Superoxide dismutase mt
output
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
2-oxoglutarate + coA-SH + NAD+ => succinyl-CoA + CO2 + NADH + H+
Conversion of glutamate g-semialdehyde to P5C
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
Conversion of P5C to glutamate
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
isocitrate + NAD+ => 2-oxoglutarate + CO2 + NADH + H+
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
MAL [mitochondrial matrix]->PYR [mitochondrial matrix]
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
malate + NAD+ <=> oxaloacetate + NADH + H+
PYR [mitochondrial matrix]->Ac-CoA [mitochondrial matrix]
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
pyruvate + CoA-SH + NAD+ => acetyl-CoA + CO2 + NADH + H+
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
RBOHs generate superoxide from oxygen during respiration in the mitochondria
Other forms of this molecule
H+ [endoplasmic reticulum lumen]
H+ [chloroplast]
H+ [amyloplast]
H+ [Golgi lumen]
H+ [mitochondrial intermembrane space]
H+ [cytosol]
H+ [plastid stroma]
Cross References
COMPOUND
C00080
© 2019
Gramene - Plant Reactome