植物代謝制御(出村研究室)

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メンバー紹介

米田 新 (Ph.D.)
名前 米田 新 (Ph.D.)
役職 助教
出身地 東京都大田区
学歴 東京大学大学院新領域創成科学研究科
学位 2005年3月 博士(生命科学)
職歴 2006年4月1日~2009年3月31日 理化学研究所 植物科学研究センター 日本学術振興会 特別研究員(PD)
2009年4月1日~2011年9月30日 理化学研究所 バイオマス工学研究プログラム 基礎科学特別研究員
2011年10月1日~ 奈良先端科学技術大学院大学 助教
専門分野 植物細胞生物学 細胞壁 細胞骨格
研究課題 植物細胞壁のパターンを決める因子の探索
趣味、好きなもの等 ランニング 甘いもの
研究者を目指す人へ 研究をすることに自分なりの楽しみを見出して欲しい
Publications
  1. Kumar S, Yoshizumi T, Hongo H, Yoneda A, Hara H, Hamasaki H, Takahashi N, Nagata N, Shimada H, Matsui M (2011) Arabidopsis mitochondrial protein TIM50 affects hypocotyl cell elongation through intracellular ATP level. Plant Sci. : 183:212-217
  2. Yoneda A, Ito T, Higaki T, Kutsuna N, Saito T, Ishimizu T, Osada H, Hasezawa S, Matsui M, Demura T (2010) Cobtorin target analysis reveals that pectin functions in deposition of cellulose microfibrils parallel to cortical microtubules in a manner dependent on the methylesterification ratio of pectin and its distribution. Plant J. 64:657-667
  3. Sano T, Kutsuna N, Higaki T, Oda Y, Yoneda A, Kumagai-Sano F, Hasezawa S (2007) Cytoskeletal and vacuolar dynamics during plant cell division: Approaches using structure-visualized cells. Plant Cell Monogr. 9: 125-140
  4. Yoneda A, Higaki T, Kutsuna N, Kondo Y, Osada H, Hasezawa S, Matsui M (2007) Chemical genetic screening identifies a novel inhibitor of parallel alignment of cortical microtubules and cellulose microfibrils. Plant Cell Physiol. 48: 1393-1403
  5. Yoneda A, Kutsuna N, Higaki T, Oda Y, Sano T, Hasezawa S (2007) Recent progress in living cell imaging of plant cytoskeleton and vacuole using fluorescent protein-transgenic lines and 3-D imaging. Protoplasma 230:129-139
  6. Matsunaga S, Kurihara D, Kawabe A, Nakagawa K, Yoneda A, Hasezawa S, Uchiyama S, Fukui K (2005) Dynamics of the plant Aurora kinase AtAUR3 during mitosis and spindle abnormality induced by AtAUR3 overexpression. Cytologia 70: 1-2
  7. Kawabe A, Matsunaga S, Nakagawa K, Kurihara D, Yoneda A, Hasezawa S, Uchiyama S, Fukui K (2005) Characterization of plant Aurora kinases during mitosis. Plant Mol. Biol. 58: 1-13
  8. Yoneda A, Akatsuka M, Hoshino H, Kumagai F, Hasezawa S (2005) Decision of spindle poles and division plane by double preprophase bands in a BY-2 cell line expressing GFP-tubulin. Plant Cell Physiol. 46: 531-538
  9. Oka M, Yanagawa Y, Asada T, Yoneda A, Hasezawa S, Sato T, Nakagawa H (2004) Inhibition of proteasome by MG-132 treatment causes extra phragmoplast formation and cortical microtubule disorganization during M/G? transition in synchronized tobacco cells. Plant Cell Physiol. 45: 1623-1632
  10. Yoneda A, Akatsuka M, Kumagai F, Hasezawa S (2004) Disruption of actin microfilaments causes cortical microtubule disorganization and extra-phragmoplast formation at M/G1 interface in synchronized tobacco cells. Plant Cell Physiol. 45: 761-769
  11. Kumagai F, Yoneda A, Kutsuna N, Hasezawa S (2004) Dynamic behavior of microtubules and vacuoles at M/G1 interface observed in living tobacco BY-2 cells. Biotechnol. Agric. For. 53: 81-97
  12. Yoneda A, Hasezawa S (2003) Origin of cortical microtubules organized at M/G1 interface: recruitment of tubulin from phragmoplast to nascent microtubules. Eur. J. Cell Biol. 82:461-71
  13. Yoneda A, Kutsuna N, Hasezawa S (2003) Dynamic organization of microtubules and vacuoles visualized by GFP in living plant cells. Recent Res. Dev. Plant Mol. Biol. 1: 127-137
  14. Hoshino H, Yoneda A, Kumagai F, Hasezawa S (2003) Roles of actin-depleted zone and preprophase band in determining the division site of higher-plant cells, a tobacco BY-2 cell line expressing GFP-tubulin. Protoplasma 222: 157-165
  15. Kumagai F, Yoneda A, Tomida T, Sano T, Nagata T, Hasezawa S (2001) Fate of nascent microtubules organized at the M/G1 interface, as visualized by synchronized tobacco BY-2 cells stably expressing GFP-tubulin; time-sequence observations of the reorganization of cortical microtubules in living plant cells. Plant Cell Physiol. 42: 723-732
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