科学技術振興機構 さきがけ エピジェネティクスの制御と生命機能 エピジェネティクスの制御と生命機能さきがけ独立行政法人科学技術振興機構

研究成果

西村 泰介 (Taisuke NISHIMURA)

原著欧文論文

  1. Hidetoshi Saze, kazuo Tsugane, Tatsuo Kanno, Taisuke Nishimura,"DNA mathylation in plants:RNAsand histon Modifications, and Functions in Transposon Inactivation",Plant Cell Physiol,5385):766-78482012)
  2. T. J. Petty, T. Nishimura, S. Emamzadah, C. Gabus, J. Paszkowski, T. D. Halazonetis and S. Thore. Expression, crystallization and preliminary X-ray diffraction analysis of the CMM2 region of the Arabidopsis thaliana Morpheus’ morecule 1 protein. Acta Crystallographica SectionF, 66, 916-918 (2010).
  3. M. Mirouze, J. Reinders, E. Bucher, T. Nishimura, K. Schneeberger, S. Ossowski, J. Cao, D. Weigel, J. Paszkowski and O. Mathieu. Selective epigenetic control of retrotransposition in Arabidopsis. Nature, 461, 427-431 (2009).
  4. S. Emamzadah, T. J. Petty, V.de Almeida, T. Nishimura, J. Joly, J.-L. Ferrer and T. D. Halazonetis. Cyclic olefin homopolymer-based microfluidics for protein crystallization and in situ X-ray diffraction. Acta Crystallographica SectionD, 65, 913-920 (2009).
  5. M. Caikovski, C. Yokthongwattana, Y. Habu, T. Nishimura,O. Mathieu and J. Paszkowski. Divergent evolution of CHD3 proteins resulted in MOM1 refining epigenetic control in vascular plants. PLoS Genetics, 4(8): e1000165 (2008).
  6. T. Nishimura and J. Paszkowski. Epigenetic transition in plants not associated with changes in DNA or histone modification. Biochimica et Biophysica Acta 1769, 393-398 (2007).
  7. T. Nishimura, T. Wada, K. T. Yamamoto and K. Okada. The Arabidopsis STV1 protein, responsible for translation reinitiation, is required for auxin-mediated gynoecium patterning. The Plant Cell 17, 2940-2953 (2005).
  8. T. Nishimura, T. Wada and K. Okada. A key factor of translation re-initiation, ribosomal protein L24, is involved in gynoecium development in Arabidopsis. Biochemical Society Transaction 32, 611-613 (2004).
  9. T. Nishimura, E. Yokota, T. Wada, T. Shimmen and K. Okada. An Arabidopsis ACT2 dominant-negative mutation, which disturbs F-actin polymerization, reveals its distinctive function in root development. Plant and Cell Physiology 44, 1131-1140 (2003).
  10. M. Kitakawa, H.-R. Graack, L. Grohmann, S. Goldschmidt-Resin, E. Herfurth, B. Wittmann-Liebold, T. Nishimura and K. Isono. Identification and characterization of the genes for mitochondrial ribosomal proteins of Saccharomyces cerevisiae. European Journal of Biochemistry 245, 449-456 (1997).
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著書・日本語総説

  1. 西村泰介
    DNAメチル化によるサイレンシングとその制御因子、「植物細胞工学シリーズ24、植物のエピジェネティクス」島本功、飯田滋、角谷徹仁編、秀潤社、2008年。
  2. 西村泰介、岡田清孝
    花のホメオティック遺伝子、遺伝子医学、4巻、3号、482-486頁、2000年。