Publication list

  • Michiko Suma, Teppei Kitagawa, Yukiko Nakase, Norihiko Nakazawa, Mitsuhiro Yanagida and Tomohiro Matsumoto.(2018)Fission Yeast CENP-C (Cnp3) Plays a Role in Restricting the Site of CENP-A Accumulation.G3: Genes, Genomes, Genetics, 8, 27232733; .
  • Yukiko Nakase and Tomohiro Matsumoto.(2018) RHEB-mTOR axis regulates expression of transposons Tf2s in fission yeast.J Cell Sci : jcs.221457 doi: 10.1242/jcs.221457 .
  • Mikio Shimada, Fumio Matsuzaki, Akihiro Kato, Junya Kobayashi, Tomohiro Matsumoto and Kenshi Komatsu.(2016)Induction of Excess Centrosomes in Neural Progenitor Cells during the Development of Radiation-Induced Microcephaly. PLoS ONE 11(7): e0158236.
  • Kanako Ozaki, Yuji Chikashige, Yasushi Hiraoka and Tomohiro Matsumoto. (2015) Fission yeast Scp3 potentially maintains microtubule orientation through bundling. PLoS ONE 10(3): e0120109. doi:10.1371/journal.pone.0120109.
  • Teppei Kitagawa, Kojiro Ishii, Kojiro Takeda and Tomohiro Matsumoto. (2014) The 19S proteasome subunit Rpt3 regulates distribution of CENP-A by associating with centromeric chromatin. Nat Commun. doi: 10.1038/ncomms4597.
  • Saito Y, Takeda J, Okada M, Kobayashi J, Kato A, Hirota K, Taoka M, Matsumoto T, Komatsu K and Isobe T. (2013) The proteasome factor Bag101 binds to Rad22 and suppresses homologous recombination. Sci Rep. 3:2022. doi: 10.1038/srep02022.
  • Horikoshi Y, Habu T and Matsumoto T. (2013) An E2 enzyme Ubc11 is required for ubiquitination of Slp1/Cdc20 and spindle checkpoint silencing in fission yeast. Cell Cycle. 12:961-71.
  • Nakase Y, Nakase M, Kashiwazaki J, Murai T, Otsubo Y, Mabuchi I, Yamamoto M, Takegawa K and Matsumoto T. (2013) The fission yeast β-arrestin-like protein Any1 is involved in TSC-Rheb signaling and the regulation of amino acid transporters. J Cell Sci. 126:3972-81.
  • Ito D, Saito Y and Matsumoto T. (2012) Centromere-tethered Mps1 pombe homolog (Mph1) kinase is a sufficient marker for recruitment of the spindle checkpoint protein Bub1, but not Mad1. Proc Natl Acad Sci U S A. 109:209-14.
  • Iimori M, Ozaki K, Chikashige Y, Habu T, Hiraoka Y, Maki T, Hayashi I, Obuse C, Matsumoto T. (2012) A mutation of the fission yeast EB1 overcomes negative regulation by phosphorylation and stabilizes microtubules. Exp Cell Res. 318:262-75.
  • Daisuke Ito, and Tomohiro Matsumoto. (2010) Molecular mechanisms and function of the spindle checkpoint, a guardian of the chromosome stability. Adv Exp Med Biol. 676:15-26.
  • Tomoka Murai, Yukiko Nakase, Keiko Fukuda, Yuji Chikashige, Chihiro Tsutsumi, Yasushi Hiraoka and Tomohiro Matsumoto. (2009) Distinctive Responses to Nitrogen Starvation in the Dominant Active Mutants of the Fission Yeast Rheb GTPase. Genetics 183(2), 517-527.
  • Jun Takeda, Norio Uematsu, Satomi Shiraishi, Megumi Toyoshima, Tomohiro Matsumoto and Ohtsura Niwa. (2008) Radiation induction of delayed recombination in Schizosaccharomyces pombe. DNA Repair 7(8), 1250-1261.
  • Kunoh, T., Habu, T. and Matsumoto, T. (2008) Involvement of Fission Yeast Clr6-HDAC in Regulation of the Checkpoint Kinase Cds1. Nucleic Acids Res. 36(10), 3311-3319.
  • Nakase,Y., Fukuda, K., Chikashige,Y., Tsutsumi, C., Morita, D., Kawamoto, S., Ohnuki, M., Hiraoka, Y. and Matsumoto, T. (2006) A defect in protein farnesylation suppresses a loss of Schizosaccharomyces pombe tsc2+, a homolog of the human gene predisposing tuberous sclerosis complex (TSC). Genetics 173: 569-578.
  • Ikui AE, Yang CPH, Matsumoto T, Horwitz SB. (2005) Low Concentrations of Taxol Cause Mitotic Delay Followed by Premature Dissociation of p55CDC from Mad2 and BubR1 and Abrogation of the Spindle checkpoint, Leading to Aneuploidy. Cell Cycle 4:1385-1388.
  • Luo X., Tang Z., Xia, G., Wassmann K., Matsumoto T., Rizo, J. and Yu H. (2004) The Mad2 spindle checkpoint protein has two distinct natuively folded states. Nat Struct Mol Biol. 11:338-345.
  • Guohong Xia, Xuelian Luo, Toshiyuki Habu, Josep Rizo, Tomohiro Matsumoto, and Hongtao Yu. (2004) Conformation-specific binding of p31comet to Mad2 antagonizes the function of Mad2 in the spindle checkpoint. EMBO J. 23:3133-3143.
  • Liu J., Furukawa, M., Matsumoto, T. and Xiong, Y. (2002). NEDD8 modification of CUL1 dissociates p120CAND1, an inhibitor of CUL1-SKP1 binding and SCF ligases. Mol. Cell 10:1511-1518.
  • Habu, T., Kim, S. H., Weinstein, J., and Matsumoto, T. (2002). Identification of a Mad2-binding protein, Cmt2, and its role in mitosis. EMBO J. 21: 6419-6428.
  • Sanae Matsumoto, Amitabha Bandyopadhyay, David J. Kwiatkowski, Umadas Maitra, and Tomohiro Matsumoto. (2002). Role of fission yeast Tsc1-Tsc2 complex in signaling and transport across cell membrane. Genetics 161: 1053-1063.
  • Ikui, A. E., Furuya, K., Yanagida, M., and Matsumoto, T. (2002). Control of localization of a spindle checkpoint protein, Mad2 in fission yeast. J. Cell Sci. 115: 1603-1610.
  • Bandyopadhyay A, Lakshmanan V, Matsumoto T, Chang EC, Maitra U. (2002). Moe1 and spInt6, the Fission Yeast Homologues of Mammalian Translation Initiation Factor 3 Subunits p66 (eIF3d) and p48 (eIF3e), Respectively, Are Required for Stable Association of eIF3 Subunits. J Biol Chem., 277:2360-2367.
  • Bandyopadhyay, A., Matsumoto, T*., and Maitra, U*. (2000). Fission Yeast Int6 is Required for Maintenance of Cell Wall/Membrane Integrity, but not Essential for General Translation Initiation. Mol. Biol. Cell. 11: 4005-4018. *: corresponding authors
  • Yamada, H. Y., Matsumoto, S. and Matsumoto, T. (2000). High dosage expression of a zinc finger protein, Grt1, suppresses a mutant of fission yeast slp1+, a homolog of CDC20/p55CDC/Fizzy. J. Cell Sci. 113: 3989-3999.
  • Kim, S. H., Lin, D. P.,  Matsumoto, S.,  Kitazono, A. and Matsumoto, T. (1998). Fission yeast Slp1: An effector of the Mad2-dependent spindle checkpoint. Science 279:1045-1047.
  • Matsumoto, T. (1997). A fission yeast homolog of CDC20/p55CDC/Fizzy is required for recovery from DNA damage and genetically interacts with p34cdc2. Mol. Cell. Biol. 17:742-750.
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