Search Results1-15 of  15

  • OHTO Chikara ID: 9000004180938

    Bio Research Laboratory, Toyota Motor Corporation (2009 from CiNii)

    Articles in CiNii:6

    • Effects of Random Mutagenesis in a Putative Substrate-Binding Domain of Geranylgeranyl Diphosphate Synthase upon Intermediate Formation adn Substrate Specificity^1 (1997)
    • Prenyl Alcohol Production by Expression of Exogenous Isopentenyl Diphosphate Isomerase and Farnesyl Diphosphate Synthase Genes in Escherichia coli (2009)
    • Overexpression of an Archaeal Geranylgeranyl Diphosphate Synthase in Escherichia coli Cells (1998)
  • OHTO Chikara ID: 9000004555201

    Articles in CiNii:7

    • Soluble Sugar and Starch Accumulation, Growth and Dry Matter Production in Rice Mutants with Suppressed Starch Synthesis in Leaves and Stems (2011)
    • Expression analysis of sucrose phosphate synthase (SPS) gene family in rice (2010)
    • Extracting soluble sugars from living plants : Investigation of the sugar extraction method via the SWEET sugar transporter (2018)
  • Ohto Chikara ID: 9000024124552

    Articles in CiNii:1

    • Production of geranylgeraniol on overexpression of a prenyl diphosphate synthase fusion gene in Saccharomyces cerevisiae. (2010)
  • Ohto Chikara ID: 9000253176167

    Department of Biochemistry and Engineering, Tohoku University (1997 from CiNii)

    Articles in CiNii:1

    • Effects of Random Mutagenesis in a Putative Substrate-Binding Domain of Geranylgeranyl Diphosphate Synthase upon Intermediate Formation and Substrate Specificity. (1997)
  • Ohto Chikara ID: 9000255994971

    Bio Research Laboratory, Toyota Motor Corporation (2008 from CiNii)

    Articles in CiNii:1

    • Various Oils and Detergents Enhance the Microbial Production of Farnesol and Related Prenyl Alcohols (2008)
  • Ohto Chikara ID: 9000258470175

    Bio Research Laboratory, Toyota Motor Corporation (2011 from CiNii)

    Articles in CiNii:1

    • Soluble Sugar and Starch Accumulation, Growth and Dry Matter Production in Rice Mutants with Suppressed Starch Synthesis in Leaves and Stems (2011)
  • Ohto Chikara ID: 9000347142443

    Bio Research Laboratory, Toyota Motor Corporation (2014 from CiNii)

    Articles in CiNii:1

    • Disruption of a rice gene for sucrose phosphate synthase, <I>OsSPS1</I>, leads to pollen sterility (2014)
  • Ohto Chikara ID: 9000391947300

    Bio Research Laboratory, Toyota Motor Corporation (2008 from CiNii)

    Articles in CiNii:1

    • Identification of transcription factors responsible for seed oil content by Chimeric REpressor Gene-Silencing Technology (CRES-T) (2008)
  • Ohto Chikara ID: 9000391947426

    Bio Research Laboratory, Toyota Motor Corporation (2008 from CiNii)

    Articles in CiNii:1

    • Screening of Genes for Increasing Seed Oil Content (2008)
  • Ohto Chikara ID: 9000391948395

    Bio Research Lab., Toyota Motor Corp. (2008 from CiNii)

    Articles in CiNii:1

    • Identification and Characterization of Genes Regulating Biogenesis of Oil Body (2008)
  • Ohto Chikara ID: 9000391949169

    Toyota Motor Corporation, Bio Research Lab. (2010 from CiNii)

    Articles in CiNii:1

    • AtPP2CF1, a Novel Isoform of <I>Arabidopsis</I> PP2C (2010)
  • Ohto Chikara ID: 9000391955989

    Bio Research Laboratory, Toyota Motor Corporation (2009 from CiNii)

    Articles in CiNii:1

    • Modification of seed oil quantitative trait using Chimeric Repressor Gene-Silencing Technology (CRES-T) (2009)
  • Ohto Chikara ID: 9000391971821

    Bio Research Laboratory, Toyota Motor Corporation|Bioproducion Research Institute, National Institute of Advanced Industrial Science and Technology (AIST) (2011 from CiNii)

    Articles in CiNii:1

    • Utilization of CRES-T gene to increase seed oil content (2011)
  • Ohto Chikara ID: 9000398143089

    T-Frontier Division, Toyota Motor Corporation (2018 from CiNii)

    Articles in CiNii:1

    • Detection of the transcripts that affect the rice-seedling morphology using RNA-seq data (2018)
  • Ohto Chikara ID: 9000401958505

    Articles in CiNii:1

    • Various oils and detergents enhance the microbial production of farnesol and related prenyl alcohols (2008)
Page Top