研究業績

2020

Tahara YO, Miyata M, Nakamura T. (2020): Quick-freeze, deep-etch electron microscopy reveals the characteristic architecture of the fission yeast spore.; J. Fungi 2020; 7(1):7. doi: 10.3390/jof7010007.

Zhang B, Teraguchi E, Imada K, Tahara YO, Nakamura S, Miyata M, Kagiwada S, Nakamura T. (2020)

The fission yeast RNA-binding protein Meu5 is involved in outer forespore membrane breakdown during spore formation.

J. Fungi 2020; 6(4):284. doi: 10.3390/jof6040284.

2019

Seike T, Maekawa H, Nakamura T, Shimoda C. (2019)

The asymmetric chemical structures of two mating pheromones reflect their differential roles in mating of fission yeast.

J. Cell Sci. 2019; 132(12): jcs230722.

2018
Niimi T, Nakamura T. (2018): The fission yeast SPB component Dms1 is required to initiate forespore membrane formation and maintain meiotic SPB components.; PLoS One 2018; 13(5): e0197879

2017
Imada K, Nakamura T. (2017): Meiosis-specific localization of the exocytic Rab Ypt2 in fission yeast.; Small GTPases 2017 Sep 6:1-9

中村太郎, 北村憲司, 杉山峰崇 (2017): ナショナルバイオリソースプロジェクト（NBRP）酵母　究極のモデル生物酵母の研究を支えるバイオリソースセンター; 化学と生物 Vol.55 No.5 Page. 326 - 332

本論文は研究データが同号の表紙に

採用されました。

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2016
Imada K, Nakamura T. (2016): The exocytic Rabs Ypt3 and Ypt2 regulate the early step of biogenesis of the spore plasma membrane in fission yeast.; Mol. Biol. Cell 27(21):3317-3328

本論文は研究データが同号の表紙に

採用されました。

2015
Seike T, Nakamura T, Shimoda C. (2015): Molecular coevolution of a sex pheromone and its receptor triggers reproductive isolation in Schizosaccharomyces pombe.; Proc. Natl. Aca. Sci. USA 112 : 4405-4410.

2014
Takaine M, Imada K, Numata O, Nakamura T, Nakano K. (2014): The meiosis-specific nuclear passenger protein is required for proper assembly of forespore membrane in fission yeast.; J. Cell Sci. 127(20):4429-42

Fukunishi K, Miyakubi K, Hatanaka M, Otsuru N, Hirata A, Shimoda C, Nakamura T. (2014): The fission yeast spore is coated by a proteinaceous surface layer comprising mainly Isp3.; Mol Biol Cell. 25: 1545-1548

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2013
Yamaoka T, Imada K, Fukunishi K, Yamasaki Y, Shimoda C, Nakamura T. (2013): The fission yeast synaptobrevin ortholog Syb1 plays an important role in forespore membrane formation and spore maturation.; Eukaryot Cell 12(9):1162-70

本論文は研究データが同号の表紙に

採用されました。

Seike T, Nakamura T, Shimoda C. (2013)

Distal and proximal actions of peptide pheromone M-factor control different conjugation steps in fission yeast.

PLoS ONE 8: e69491

2012
Seike T, Yamagishi Y, Iino H, Nakamura T, Shimoda C. (2012): Remarkably simple sequence requirement of the M-factor pheromone of Schizosaccharomyces pombe.; Genetics 191: 815-825.

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2011
Kashiwazaki J, Yamasaki Y, Itadani A, Teraguchi E, Maeda Y, Shimoda C, *Nakamura T. (2011): Endocytosis is essential for dynamic translocation of a syntaxin 1 ortholog during fission yeast meiosis.; Mol. Biol. Cell 22: 3658-3670

本論文は研究データが同号の表紙に

採用されました。

Nakamura-Kubo M, Hirata A, Shimoda C, *Nakamura T. (2011)

The fission yeast pleckstrin homology domain protein Spo7 is essential for initiation of forespore membrane assembly and spore morphogenesis.

Mol. Biol. Cell 22: 3442-3455

本論文は同号のハイライト（注目される論文）に選ばれました。

中村太郎、金子嘉信 (2011)

究極のモデル生物＝酵母の研究を支える酵母遺伝資源センター (YGRC)

バイオリソースニュースレター "BioResource now!" Vol7 No.7

2010

Itadani A, Nakamura T, Hirata A, Shimoda C. (2010): Fission yeast calmodulin, Cam1, plays a crucial role in sporulation by recruiting and stabilizing the spindle pole body components responsible for assembly of the forespore membrane.; Eukaryot. Cell. 9: 1925-1935

Nakase M. Tani M. Morita T. Kitamoto HK. Kashiwazaki J. Nakamura T. Hosomi A. Tanaka N. Takegawa K. (2010).: Mannosylinositol phosphorylceramide is a major sphingolipid component and is required for proper localization of plasma-membrane proteins in Schizosaccharomyces pombe.; J. Cell Sci. 123: 1578-1587

Onishi M. Koga T. Hirata A. Nakamura T. Asakawa H. Shimoda C. Bahler J. Wu JQ. Takegawa K. Tachikawa H. Pringle JR. Fukui Y. (2010).: Role of septins in the orientation of forespore membrane extension during sporulation in fission yeast; Mol. Cell Biol. 8: 2057-2074

Yamazaki Y, Akashi R, Banno Y, Endo T, Ezura H, Fukami-Kobayashi K, Inaba K, Isa T, Kamei K, Kasai F, Kobayashi M, Kurata N, Kusaba M, Matuzawa T, Mitani S, Nakamura T, Nakamura Y, Nakatsuji N, Naruse K, Niki H, Nitasaka E, Obata Y, Okamoto H, Okuma M, Sato K, Serikawa T, Shiroishi T, Sugawara H, Urushibara H, Yamamoto M, Yaoita Y, Yoshiki A, Kohara Y. (2010).: NBRP databases: databases of biological resources in Japan.; Nucleic Acids Res. D26-30

Mukaiyama H, Nakase M, Nakamura T, Kakinuma Y, Takegawa K. (2010): Autophagy in the fission yeast Schizosaccharomyces pombe; FEBS Lett. 584: 1327-1334. (Review)

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2009

Kashiwazaki J, Iwaki T, Takegawa K, Shimoda C, and Nakamura T (2009): Two fission yeast Rab7 homologs, Ypt7 andYpt71, play antagonistic roles in the regulation of vacuolar morphology; Traffic 10:912-924

Nakase Y, Hirata A, Shimoda C, *Nakamura T. (2009): Ectopic overproduction of a meiosis-specific transcription factor induces assembly of prospore-like membranous compartments in vegetative cells of fission yeast.; Genetics 183: 1195-1199

Mukaiyama H, Kajiwara S, Hosomi A, Giga-Hama Y, Tanaka N, Nakamura T, *Takegawa K. (2009): Autophagy-deficient Schizosaccharomyces pombe mutants undergo partial sporulation during nitrogen starvation.; Microbiology 155: 3816-3826

Maeda Y, Kashiwazaki J, Shimoda C, and Nakamura T (2009): The Schizosaccharomyces pombe syntaxin 1 homolog, Psy1, is essential in the development of the forespore membrane.; Biosci. Biotechnol Biochem. 73:339-345

中村太郎: GeneDB, SGD ～究極のモデル真核生物「酵母」を支えるデータベース; 細胞工学別冊バイオリソース＆データベース活用術132-135

2008
Nakamura T, Asakawa H, Nakase Y, Kashiwazaki J, Hiraoka Y, and Shimoda C. (2008): Live observation of forespore membrane formation in fission yeast.; Mol. Biol. Cellg 19：3544-3553

Nakase Y, Nakamura-Kubo M, Ye Y, Hirata A, Shimoda C, and Nakamura T. (2008): Meiotic spindle pole bodies acquire the ability to assemble the spore plasma membrane by sequential recruitment of sporulation-specific components in fission yeast.; Mol. Biol. Cell 19: 2476-2487; ＊本論文はMol. Biol. Cell 誌2008年6月号のInCytes from MBCに選ばれました。

中村太郎: NBRP（ナショナルバイオリソースプロジェクト）紹介　酵母―究極のモデル生物―; ビオフィリア 14夏号65-67

中村太郎: cDNAの大規模解析とバイオリソースとしての利用; 化学と生物 46：814-817

2007
Ye Y, Fujii M, Hirata A, Kawamukai M, Shimoda C, and Nakamura T. (2007): synthase in fission yeast is a heteromer of farnesyl diphosphate synthase (FPS), Fps1, and an FPS-like protein, Spo9, essential for sporulation.; Mol. Biol. Cell 18：3568-3581

「酵母のすべて」大隅良典、下田親編　シュプリンガーフェアラーク東京: 第９章　中村太郎　「胞子形成」; 資料編　西沢正文、中村太郎　「プラスミド」

2006
Itadani A., Nakamura T., Shimoda C. (2006): Localization of type I myosin and F-actin to the leading edge region of the forespore membrane in Schizosaccharomyces pombe.; Cell Struct Funct. 31:181-195

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2005

Yoshida, S., Nakamura T., and Shimoda, C.(2005)

The cation-transporting P-type ATPase Cta4 is required for assembly of the forespore membrane in fission yeast.

Genes Genet. Syst. 30: 43-49

Kashiwazaki, J., Nakamura T., Iwaki, T., Takegawa, K., and Shimoda, C.(2005): A Role for fission yeast Rab GTPase Ypt7p in sporulation.; Cell Struct. Funct. 30: 43-49

Nakamura T., Kashiwazaki, J., and Shimoda, C.(2005): A fission yeast SNAP-25 homologue, SpSec9, is essential for cytokinesis and sporulation.; Cell Struct. Funct. 30: 15-24

中村太郎、淡路　萌、下田　親: 第二減数分裂制御にかかわる新しいCdc7/Dbf4キナーゼ複合体Spo4/Spo6; 実験医学増刊　細胞周期の最前線　Vol 23:1410-1415

2004

Nakase, Y., Nakamura T., Okazaki, K., Hirata, A. and Shimoda, C.(2004); The Sec14 family glycerophospholipid-transfer protein is required for structural integrity of the spindle pole body during meiosis in fission yeast.; Genes to Cells 12:1275-1286

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