草場 信MAKOTO KUSABA

Last Updated :2024/04/03

所属・職名
大学院統合生命科学研究科附属植物遺伝子保管実験施設 教授
メールアドレス
akusabahiroshima-u.ac.jp

基本情報

学位

  • 博士(農学) (東京大学)

研究分野

  • 農学 / 生産環境農学 / 遺伝育種科学

教育活動

授業担当

  1. 2024年, 教養教育, 1ターム, 生物の世界[1生]
  2. 2024年, 教養教育, 3ターム, Introduction to Biology
  3. 2024年, 教養教育, 2ターム, 教養ゼミ
  4. 2024年, 学部専門, 2ターム, 先端生物学
  5. 2024年, 学部専門, 2ターム, 基礎生物科学B
  6. 2024年, 学部専門, セメスター(前期), 卒業研究
  7. 2024年, 学部専門, セメスター(後期), 卒業研究
  8. 2024年, 学部専門, 3ターム, 遺伝学A
  9. 2024年, 学部専門, 1ターム, 遺伝学B
  10. 2024年, 学部専門, セメスター(後期), 植物遺伝子資源学演習
  11. 2024年, 学部専門, セメスター(後期), 生物科学基礎実験II
  12. 2024年, 学部専門, セメスター(後期), 生物科学基礎実験IV
  13. 2024年, 修士課程・博士課程前期, 年度, 基礎生物学特別研究
  14. 2024年, 修士課程・博士課程前期, 2ターム, 分子生理学特論
  15. 2024年, 修士課程・博士課程前期, セメスター(前期), 基礎生物学特別演習A
  16. 2024年, 修士課程・博士課程前期, セメスター(後期), 基礎生物学特別演習B
  17. 2024年, 博士課程・博士課程後期, 年度, 統合生命科学特別研究

研究活動

学術論文(★は代表的な論文)

  1. Early flowering phenotype of the Arabidopsis altered meristem program1 mutant is dependent on the FLOWERING LOCUS T-mediated pathway, PLANT BIOTECHNOLOGY, 39巻, 3号, pp. 317-321, 202209
  2. Genetic analysis of chlorophyll synthesis and degradation regulated by BALANCE of CHLOROPHYLL METABOLISM, PLANT PHYSIOLOGY, 189巻, 1号, pp. 419-432, 20220503
  3. The complete sequence of the chloroplast genome of Chrysanthemum rupestre, a diploid disciform capitula species of Chrysanthemum, MITOCHONDRIAL DNA PART B-RESOURCES, 7巻, 4号, pp. 603-605, 20220403
  4. Functional Divergence of G and Its Homologous Genes for Green Pigmentation in Soybean Seeds, FRONTIERS IN PLANT SCIENCE, 12巻, 20220105
  5. Two short-chain dehydrogenase/reductases, NON-YELLOW COLORING 1 and NYC1-LIKE, are required for chlorophyll b and light-harvesting complex II degradation during senescence in rice, PLANT JOURNAL, 57巻, 1号, pp. 120-131, 200901
  6. Development of PCR markers to detect the glb1 and Lgc1 mutations for the production of low easy-to-digest protein rice varieties, THEORETICAL AND APPLIED GENETICS, 119巻, 1号, pp. 125-130, 200906
  7. Participation of Chlorophyll b Reductase in the Initial Step of the Degradation of Light-harvesting Chlorophyll a/b-Protein Complexes in Arabidopsis, JOURNAL OF BIOLOGICAL CHEMISTRY, 284巻, 26号, pp. 17449-17456, 20090626
  8. A Novel Carotenoid Derivative, Lutein 3-Acetate, Accumulates in Senescent Leaves of Rice, PLANT AND CELL PHYSIOLOGY, 50巻, 8号, pp. 1573-1577, 200908
  9. Defect in non-yellow coloring 3, an alpha/beta hydrolase-fold family protein, causes a stay-green phenotype during leaf senescence in rice, PLANT JOURNAL, 59巻, 6号, pp. 940-952, 200909
  10. NBRP databases: databases of biological resources in Japan, NUCLEIC ACIDS RESEARCH, 38巻, pp. D26-D32, 201001
  11. Molecular characterization of mutations induced by gamma irradiation in rice, GENES & GENETIC SYSTEMS, 84巻, 5号, pp. 361-370, 200910
  12. Field transcriptome revealed critical developmental and physiological transitions involved in the expression of growth potential in japonica rice, BMC PLANT BIOLOGY, 11巻, 20110112
  13. NBRP, National Bioresource Project of Japan and plant bioresource management, BREEDING SCIENCE, 60巻, 5号, pp. 461-468, 201012
  14. Stay-green plants: what do they tell us about the molecular mechanism of leaf senescence, PHOTOSYNTHESIS RESEARCH, 117巻, 1-3号, pp. 221-234, 201311
  15. NYC4, the rice ortholog of Arabidopsis THF1, is involved in the degradation of chlorophyll protein complexes during leaf senescence, PLANT JOURNAL, 74巻, 4号, pp. 652-662, 201305
  16. A Green-Cotyledon/Stay-Green Mutant Exemplifies the Ancient Whole-Genome Duplications in Soybean, PLANT AND CELL PHYSIOLOGY, 55巻, 10号, pp. 1763-1771, 201410
  17. Strigolactone regulates leaf senescence in concert with ethylene in Arabidopsis., Plant Physiology, pp. 138-147, 2015
  18. Strigolactone Regulates Leaf Senescence in Concert with Ethylene in Arabidopsis, PLANT PHYSIOLOGY, 169巻, 1号, pp. 138-147, 201509
  19. Protection of Chloroplast Membranes by VIPP1 Rescue sAberrant Seedling Development in Arabidopsis nyc1 Mutant, FRONTIERS IN PLANT SCIENCE, 7巻, 20160428
  20. The Non-Mendelian Green Cotyledon Gene in Soybean Encodes a Small Subunit of Photosystem II, PLANT PHYSIOLOGY, 173巻, 4号, pp. 2138-2147, 201704
  21. Impairment of Lhca4, a subunit of LHCI, causes high accumulation of chlorophyll and the stay-green phenotype in rice, JOURNAL OF EXPERIMENTAL BOTANY, 69巻, 5号, pp. 1027-1035, 20180220
  22. Organelle DNA degradation contributes to the efficient use of phosphate in seed plants, NATURE PLANTS, 4巻, 12号, pp. 1044-1055, 201812
  23. pCYOs: Binary vectors for simple visible selection of transformants using an albino-cotyledon mutant in Arabidopsis thaliana, PLANT BIOTECHNOLOGY, 36巻, 1号, pp. 39-42, 201903
  24. A pure line derived from a self-compatible Chrysanthemum seticuspe mutant as a model strain in the genus Chrysanthemum, PLANT SCIENCE, 287巻, 201910
  25. De novo whole-genome assembly in Chrysanthemum seticuspe, a model species of Chrysanthemums, and its application to genetic and gene discovery analysis, DNA RESEARCH, 26巻, 3号, pp. 195-203, 201906
  26. Regulation of Sugar and Storage Oil Metabolism by Phytochrome during De-etiolation, PLANT PHYSIOLOGY, 182巻, 2号, pp. 1114-1129, 202002
  27. Genetic interaction among phytochrome, ethylene and abscisic acid signaling during dark-induced senescence in Arabidopsis thaliana., Frontiers in Plant Science, 11巻, pp. 564, 20200521
  28. RAD-seq-Based High-Density Linkage Map Construction and QTL Mapping of Biomass-Related Traits in Sorghum using the Japanese Landrace Takakibi NOG, PLANT AND CELL PHYSIOLOGY, 61巻, 7号, pp. 1262-1272, 202007
  29. Genetic Interaction Among Phytochrome, Ethylene and Abscisic Acid Signaling During Dark-Induced Senescence in Arabidopsis thaliana, FRONTIERS IN PLANT SCIENCE, 11巻, 20200521
  30. Regulation of the plastochron by three many-noded dwarf genes in barley, PLOS GENETICS, 17巻, 5号, 202105
  31. Highly pleiotropic functions of CYP78As and AMP1 are regulated in non-cell-autonomous/organ-specific manners, PLANT PHYSIOLOGY, 186巻, 1号, pp. 767-781, 202105
  32. A chromosome-level genome sequence of Chrysanthemum seticuspe, a model species for hexaploid cultivated chrysanthemum, COMMUNICATIONS BIOLOGY, 4巻, 1号, 20211007
  33. Identification and Characterization of an Early Leaf Senescence Gene ELS1 in Soybean, FRONTIERS IN PLANT SCIENCE, 12巻, 20211216