植物細胞機能(橋本研究室)植物細胞機能研究室

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論文リスト

細胞骨格

2018

  • N. Yagi, S. Matsunaga, and T. Hashimoto (2018) Insights into corticalmicrotubule nucleation and dynamics in Arabidopsis leaf cells. J. Cell Sci. 131 jcs203778. doi:10.1242/jcs.203778
  • 2017

    • Takatani S, Ozawa S, Yagi N, Hotta T, Hashimoto T, Takahashi Y, Takahashi T, Motose H (2017) Directional cell expansion requires NIMA-related kinase 6 (NEK6)-mediated cortical microtubule destabilization. Scientific Reports, 7, doi:10.1038/s41598-017-08453-5
    • K. Soga, C. Yamazaki, M. Kamada, N. Tanigawa, H. Kasahara, S. Yana, K.H. Kojo, N. Kutsuna, T. Kato, T. Hashimoto, T. Kotake, K. Wakabayashi, and T. Hoson (2017) Modification of growth anisotropy and cortical microtubule dynamics in Arabidopsis hypocotyls grown under microgravity conditions in space. Physiol. Plant. 162: 135-144. doi:10.1111/ppl.12640
    • J.H. Wong, and T. Hashimoto (2017) Novel Arabidopsis microtubule-associated proteins track growing microtubule ends. BMC Plant Biol. 17: 33. Doi: 10.1186/s12870-017-0987-5 

    2016

    • T. Hotta, S. Fujita, S. Uchimura, M. Noguchi, T. Demura, E. Muto, and T. Hashimoto (2016) Affinity purification and characterization of functional tubulin from cell suspension cultures of Arabidopsis and tobacco. Plant Physiol. 170: 1189-1205. Doi: 10.1104/pp.15.001173
    • M. Murakami, K. Soga, T. Kotake, T. Kato, T. Hashimoto, K. Wakabayashi, and T. Hoson (2016) Roles of MAP65-1 and BPP1 in gravity resistance of Arabidopsis hypocotyls. Biol. Sci. Space 30: 1-7. doi: 10.2187/bss.30.1

    2015

    • T. Hashimoto (2015) Microtubules in Plants. The Arabidopsis Book 13: e0179. doi: 10.1199/tab.0179. doi: 10.1199/tab.0179
    • S. Takatani, T. Hirayama, T. Hashimoto, T. Takahashi, and H. Motose (2015) Abscisic acid induces ectopic outgrowth in epidermal cells through cortical microtubule reorganization in Arabidopsis thaliana. Sci. Rep. 5: 11364. Doi: 10.1038/strep11364

    2014

    • T. Hotta, and T. Hashimoto (2014) Microtubule nucleation in plants. In: The Plant Sciences: Cell Biology, Ed. B. Liu, Springerr, New York, pp. 1-11. Doi: 10.1007/978-1-4614-7881-2_16-1.
    • A. Walia, M. Nakamura, V. Kirk, D. Moss, T. Hashimoto, and D. Ehrhardt (2014) GCP-WD mediates g-TuRC recruitment and the geometry of microtubule nucleation in the acentrosomal interphase arrays of Arabidopsis. Curr. Biol. 24: 2548-2555. doi: 10.1016/j.cub.2014.09.013.

    2013

    •  T. Hamada, N. Nagasaki-Takeuchi, T. Kato, M. Fujiwara, S. Sonobe, Y. Fukao, and T. Hashimoto (2013) Purification and characterization of novel microtubule-associated proteins from Arabidopsis cell suspension cultures. Plant Physiol. 163: 1804-1816. doi: 10.1104/pp.113.225607
    • S. Fujita, J. Pytela, T. Hotta, T. Kato, T. Hamada, R. Akamatsu, Y. Ishida, N. Kutsuna, S. Hasezawa, Y. Nomura, H. Nakagami, and T. Hashimoto (2013) An atypical tubulin kinase mediates stress-induced microtubule depolymerization in Arabidopsis. Curr. Biol.23: 1969-1978. doi: 10.1016/j.cub.2013.08.006
    • T. Hashimoto (2013) A ring for all: α-tubulin-containing nucleation complexes in acentrosomal plant microtubule arrays. Curr. Opin. Plant Biol. 16:698-703. doi: 10.1016/j.pbi.2013.09.002.
    • Y. Ban, Y. Kobayashi, T. Hara, T. Hamada, T. Hashimoto, S. Takeda, and T. Hattori (2013) Alpha-tubulin is rapidly phosphorylated in response to hyperosmotic stress in rice and Arabidopsis. Plant Cell Physiol. 54: 848-858. doi: 10.1093/pcp/pct065
    • T. Hashimoto (2013) Dissecting the cellular functions of plant microtubules using mutant tubulins. Cytoskeleton 70: 191-200. doi: 10.1002/cm.21099

    2012

    • T. Hamada, M. Tominaga, T. Fukaya, M. Nakamura, A. Nakano, Y. Watanabe, T. Hashimoto, and T. Baskin (2012) RNA processing bodies, peroxisomes, Golgi bodies, mitochondria, and ER tubule junctions frequently pause at cortical microtubules. Plant Cell Physiol. 53: 699-708.
    • M. Nakamura, N. Yagi, T. Kato, S. Fujita, N. Kawashima, D.W. Ehrhardt, and T. Hashimoto (2012) Arabidopsis GCP3-INTERACTING PROTEIN 1/MOZART1 is an integral component of the γ-tubulin-containing microtubule nucleating complex. Plant J. 71: 216-225.[PubMed]

    2011

    • S. Wang, J. Kurepa, T. Hashimoto, and J.A. Smalle (2011) Salt stress-induced disassembly of Arabidopsis cortical microtubule arrays involves 26S proteasome-dependent degradation of SPIRAL1. Plant Cell 23: 3412-3427.
    • H. Motose, T. Hamada, K. Yoshimoto, T. Murata, M. Hasebe, Y. Watanabe, T. Hashimoto, T. Sakai, and T. Takahashi (2011) NIMA-related kinases 6, 4, and 5 interact with each other to regulate microtubule organization during epidermal cell expansion in Arabidopsis thaliana. Plant J. 67: 993-1005.
    • T Hashimoto (2011)Microtubule and cell shape determination. In: The Plant Cytoskeleton B. Liu, ed (Springer, New York), Chapter 11, pp. 245-257.

    2010

    • M. Nakamura, D. Ehrhardt, and T. Hashimoto (2010) Microtubule and katanin dependent dynamics of microtubule nucleation complexes in the Arabidopsis cortical array. Nat. Cell Biol. 12: 1064-1070.
    • J Pytela, T. Kato and T Hashimoto (2010) Mitogen-activated protein kinase phosphatase PHS1 is retained in the cytoplasm by nuclear extrusion signal-dependent and independent mechanisms. Planta 231: 1311-1322.
    • S. Matsumoto, S. Kumasaki, K. Soga, K. Wakabayashi, T. Hashimoto, and T. Hoson (2010) Gravity-induced modifications to development in hypocotyls of Arabidopsis tubulin mutants. Plant Physiol. 152: 918-926.
    • S. Komaki, T. Abe, S. Coutuer, D. Inze, E. Russinova, and T. Hashimoto (2010) Nuclear-localized subtype of end-binding 1 protein regulates spindle organization in Arabidopsis. J. Cell Sci. 123: 451-459.

    2009

    • T. Hamada, T.J. Itoh, T. Hashimoto, T. Shimmen, and S. Sonobe (2009) GTP is required for the microtubule catastrophe-inducing activity of MAP200, a tobacco homolog of XMAP215. Plant Physiol. 151: 1823-1830.
    • Krupnova, T., Sasabe, M., Ghebreghiorghis, L., Gruber C.W., Hamada, T., Dehmel, V., Strompen, G., Stierhof, Y., Lukowitz, W., Kemmerling, B., Machida, Y., Hashimoto, T., Mayer, U., and Jurgens, G. (2009) Microtubule-associated kinase-like protein RUNKEL needed for cell plate expansion in Arabidopsis cytokinesis. Curr. Biol. 19: 518-523.
    • M. Nakamura, and T. Hashimoto (2009) A mutation in the Arabidopsis g-tubulin-containing complex subunit causes helical growth and abnormal microtubule branching. J. Cell Sci. 122: 2208-2217.

    2008

    • M. Yao, Y. Wakamatsu, T. J. Itoh, T. Shoji, and T. Hashimoto (2008) Arabidopsis SPIRAL2 promotes uninterrupted microtubule growth by suppressing the pause state of microtubule dynamics. J. Cell Sci. 121: 2372-2381
    • P. Hussey, and T. Hashimoto (2008) The cytoskeleton and signal transduction: Role and regulation of plant actin and microtubule binding proteins. In: Intracellular Signalling in Plants, (ed. Z. Yang), Wiley-Blackwell, pp. 244-272

    2007

    • T. Ishida, Y. Kaneko, M. Iwano, and T. Hashimoto (2007) Helical microtubule arrays in a collection of twisting tubulin mutants of Arabiodpsis thaliana. Proc. Natl. Acad. Sci. USA 104: 8544-8549.
    • T. Ishida, S. Thitamadee, and T. Hashimoto (2007) Twisted growth and organization of cortical microtubules. J. Plant Res., 120: 61-70
    • H. Tahara, E. Yokota, H. Igarashi, H. Orii, M. Yao, S. Sonobe, T. Hashimoto, PJ. Hussey and T. Shimmen (2007) Clathrin is involved in organization of mitotic spindle and phragmoplast as well as in endocytosis in tobacco cell cultures. Protoplasma 230: 1-11.
    • T. Ishida, S. Thitamadee and T. Hashimoto (2007) Twisted growth and organization of cortical microtubules. J Plant Res. 120: 61-70.

    2006

    • T. Hamada, H. Igarashi, M, , T. Hashimoto, T. Shimmen, and >S. Sonobe (2006) Purification and characterization of plant dynamin from tobacco BY-2 cells. Plant Cell Physiol. 47: 1175-1181.
    • T. Shoji, K. Suzuki, T. Abe, Y. Kaneko, H. Shi, J.K. Zhu, A. Rus, P.M. Hasegawa and T. Hashimoto (2006) Salt stress affects cortical microtubule organization and helical growth in Arabidopsis. Plant Cell Physiol. 47: 1158-1168.
    • K. Nakajima, T. Kawamura, and T. Hashimoto (2006) Role of the SPIRAL1 gene family in anisotropic growth of Arabidopsis thaliana. Plant Cell Physiol. 47: 513-22.
    • T. Hashimoto, and T. Kato (2006) Cortical control of plant microtubules. Curr. Opin. Plant Biol. 9: 5-11.

    2005

    • T. Abe, and T. Hashimoto (2005) Altered microtubule dynamics by expression of modified ?-tubulin protein causes right-handed helical growth in transgenic Arabidopsis plants. Plant J. 43: 191-204.

    2004

    • R. Prieto, and T. Hashimoto (2004) Interaction of Arabidopsis membrane proteins with SPIRAL1. Plant Biotechnol. 21: 261-267.
    • T. Shoji, N.N. Narita, K. Hayashi, J. Asada, T. Hamada, S. Sonobe, K. Nakajima, and T. Hashimoto (2004) Plant-specific microtubule-associated protein SPIRAL2 is required for anisotropic growth in Arabidopsis. Plant Physiol. 136: 3933-3944.
    • M. Nakamura, K. Naoi, T. Shoji, and T. Hashimoto (2004) Low concentrations of propyzamide and oryzalin alter microtubule dynamics in Arabidopsis epidermal cells. Plant Cell Physiol. 45: 1330-1334.
    • K. Naoi, and T. Hashimoto (2004) A semi-dominant mutation in an Arabidopsis mitogen-activated protein kinase phosphatase-like gene compromises cortical microtubule organization. Plant Cell 16: 1841-1853.
    • K. Nakajima, I. Furutani, H. Tachimoto, K. Matsubara, and T. Hashimoto (2004) SPIRAL1 encodes a novel plant-specific microtubule-localized protein required for directional cell control of rapidly expanding Arabidopsis cells. Plant Cell 16: 1178-1190.
    • T. Abe, S. Thitamadee, and T. Hashimoto (2004) Microtubule defects and cell morphogenesis in the lefty1lefty2 tubulin mutant of Arabidopsis thaliana. Plant Cell Physiol. 45: 211-220.

    2003

    • T. Hashimoto and D. Inz? (2003) How unique is the plant cell. Curr. Opin. Plant Biol. 6: 517-519.
    • T. Hashimoto (2003) Dynamics and regulation of plant interphase microtubules: a comparative view. Curr. Opin. Plant Biol. 6: 568-576.
    • F. Kumagai, T. Nagata, N. Yahara, Y. Moriyama, T. Horio, K. Naoi, T. Hashimoto, T. Murata, and S. Hasezawa (2003) ?-Tubulin distribution during cortical microtubule reorganization at the M/G1 interface in tobacco BY-2 cells. Eur. J. Cell Biol. 82: 43-51.

    2002

    • T. Hashimoto (2002) Molecular genetic analysis of left-right handedness in plants. Phil. Trans. R. Soc. Lond. B 357: 799-808.
    • S. Thitamadee, K. Tuchihara, and T. Hashimoto (2002) Microtubule basis for left-handed helical growth in Arabidopsis. Nature 417: 193-196.

    2000

    • I. Furutani, Y. Watanabe, R. Prieto, M. Masukawa, K. Suzuki, K. Naoi, S. Thitamadee, T. Shikanai, and T. Hashimoto (2000) The SPIRAL genes are required for directional control of cell elongation in Arabidopsis thaliana. Development 127: 4443-4453.

    1999

    • K. Ueda, T. Matsuyama, and T. Hashimoto, Visualization of microtubules in living cells of transgenic Arabidopsis thaliana, Protoplasma 206: 201-206 (1999)
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