Plant Reactome Pathway Database

  • 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
  • Download

 Plant Reactome Pathway Database

  • 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
  • Download
Schema > Person > Entries

Takaiwa, F

created [InstanceEdit:9623489] Gupta, Parul, 2018-10-04
dbId 9623490
displayName Takaiwa, F
firstname Fumio
initial F
publications
  • [LiteratureReference:9623488] Synergism between RPBF Dof and RISBZ1 bZIP activators in the regulation of rice seed expression genes
  • [LiteratureReference:9639026] Generation of stable 'low phytic acid' transgenic rice through antisense repression of the 1D-myo-inositol 3-phosphate synthase gene (RINO1) using the 18-kDa oleosin promoter
  • [LiteratureReference:9626490] Characterization of a new rice glutelin gene GluD-1 expressed in the starchy endosperm
  • [LiteratureReference:9623478] Compensation and interaction between RISBZ1 and RPBF during grain filling in rice
  • [LiteratureReference:9626485] Antisense inhibition of isoamylase alters the structure of amylopectin and the physicochemical properties of starch in rice endosperm
schemaClass Person
surname Takaiwa
  • About
    • What is Plant Reactome ?
    • Team
    • Scientific Advisory Board
    • License Agreement
    • Disclaimer
    • Staff
  • Content
    • Data Schema
    • Release Summary
  • Docs
    • User Guide
    • Developer's Zone
    • Data Model
    • Computational Inference
    • Linking to Us
    • Citing us
  • Tools
    • Pathway Browser
    • Analyze Data
    • Species Comparison
    • Content Service
  • Community
    • Outreach
    • Events
    • Training
    • Publications
    • Partners
  • Download

© 2019 Gramene - Plant Reactome