Kawasoe Y, Tsurimoto T, Nakagawa T, Masukata H, Takahashi TS.
MutSα maintains the mismatch repair capability by inhibiting PCNA unloading. eLIFE, 12;5:e15155. doi: 10.7554/eLife.15155 (2016).
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Johnson C, Gali VK, Takahashi TS, Kubota T.
PCNA retention on DNA into G2/M phase causes genome instability in cells lacking Elg1. Cell Rep., 19;16(3):684-695. doi: 10.1016/j.celrep.2016.06.030. (2016).
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Tashiro T, Handa T, Matsuda A, Ban T, Takigawa T, Miyasato K,Ishii K, Kugou K, Ohta K, Hiraoka Y, Masukata H, Kanoh J.
Shugoshin forms a specialized chromatin domain at subtelomeres that regulates transcription and replication timing. Nature Communications, 7:10393. doi: 10.1038/ncomms10393 (2016).
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Ruan K, Yamamoto TG, Asakawa H, Chikashige Y, Kimura H, Masukata H, Haraguchi T, Hiraoka Y.
Histone H4 acetylation required for chromatin decompaction during DNA replication. Scieitific Reports, 30;5:12720. doi: 10.1038/srep12720, (2015).
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Shintomi K, Takahashi TS, Hirano T.
Reconstitution of mitotic chromatids with a minimum set of purified factors. Nat Cell Biol, 17(8):1014-1023. doi: 10.1038/ncb3187. (2015).
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Sanuki Y, Kubota Y, Kanemaki MT, Takahashi TS, Mimura S, Takisawa H.
RecQ4 promotes the conversion of the pre-initiation complex at a site-specific origin for DNA unwinding in Xenopus egg extracts. Cell Cycle, 114, 1010-1023. doi: 10.1080/15384101.2015.1007003 (2015).
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Ruan K, Yamamoto TG, Asakawa H, Chikashige Y, Masukata H, Haraguchi T, Hiraoka Y.
Meiotic nuclear movements in fission yeast are regulated by the transcription factor Mei4 downstream of a Cds1-dependent replication checkpoint pathway. Genes to Cells., 20(3), 160-172. doi: 10.1111/gtc.12207, (2015).
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Slenn TJ, Morris B, Havens CG, Freeman RM, Takahashi TS, Walter JC.
Thymine DNA glycosylase is a CRL4Cdt2 substrate. J Biol Chem., 289(33): 23043–23055 (2014), doi: 10.1074/jbc.M114.574194
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Nanbu T, Takahashi K, Murray JM, Hirata N, Ukimori S, Kanke M, Masukata H, Yukawa M, Tsuchiya E, Ueno M.
Fission yeast RecQ helicase Rqh1 is required for the maintenance of circular chromosomes. Mol Cell Biol., 33 (6), 1175-1187 (2013), doi: 10.1128/MCB.01713-12
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Tazumi, A., Masukata, H.
Telomere-binding proteins play roles in control of replication timing. Cell Cycle, 11 (24), 4492-4493 (2012) doi: 10.4161/cc.22727
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Tazumi, A., Fukuura, M., Nakato, R., Kishimoto, A., Takenaka, T., Ogawa, S., Song, J., Takahashi, TS., Nakagawa, T., Masukata, H.
Telomere-binding protein Taz1 controls global replication timing through its localization near late replication origins in fission yeast. Genes Dev., 26 (18),2050-2062 (2012) doi: 10.1101/gad.194282.112
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Handa T., Kanke M., Takahashi TS., Nakagawa T., Masukata H.
DNA polymerization-independent functions of DNA polymerase epsilon in assembly and progression of the replisome in fission yeast. Mol. Biol. Cell, 23 (16), 3240-3253 (2012) doi: 10.1091/mbc.E12-05-0339
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Higashi T. L., Ikeda M., Tanaka H., Nakagawa T., Bando M., Shirahige K., Kubota Y., Takisawa H., Masukata H., Takahashi T. S.
The Prereplication Complex Recruits XEco2 to Chromatin to Promote Cohesin Acetylation in Xenopus Egg Extracts. Curr. Biol., 22, 977-988 (2012), (doi: 10.1016/j.cub.2012.04.013)
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Kanke, M., Kodama, Y., Takahashi, TS., Nakagawa, T., Masukata, H.
Mcm10 plays an essential role in origin DNA unwinding after loading of the CMG components. The EMBO Journal, 31, 2182-2194 (2012) Published online 20 March 2012, doi:10.1038/emboj.2012.68
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Maki K, Inoue T, Onaka A, Hashizume H, Somete N, Kobayashi Y, Murakami S, Shigaki C, Takahashi TS, Masukata H, Nakagawa T.
Abundance of prereplicative complexes (Pre-RCs) facilitates recombinational repair under replication stress in fission yeast. J. Biol. Chem., 286(48), 41701-41710 (2011)
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Fukuura. S., Nagao. K. Obuse, C., Takahashi, TS., Nakagawa, T., Masukata, M.
CDK promotes interactions of Sld3 and Drc1 with Cut5 for initiation of DNA replication in fission yeast. Molecular Biology of the Cell, 22(14), 2620-2633 (2011)
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Kanke, M., Nishimura, K., Kanemaki, M., Kakimoto, T., Takahashi, TS., Nakagawa, T., Masukata, M.
Auxin-inducible protein depletion system in fission yeast. BMC Cell Biology, 12:8, doi:10.1186/1471-2121-12-8 (2011)
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Hayashi, T.M. and Masukata, H.
Regulation of DNA replication by chromatin structures: accessibility and recruitment. Chromosoma, 120,(1), 39-46, DOI: 10.1007/s00412-010-0287-4 (2011)
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Hayashi, T.M., Takahashi, S.T., Nakagawa, T., Nakayama, J., Masukata, H.
The heterochromatin protein Swi6/HP1 activates replication origins at the pericentromeric region and silent mating-type locus. Nature Cell Biology, 11, 357 - 362,doi:10.1038 (2009)
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Nakamura, KI., Okamoto, A., Katou, Y., Yadani, C., Shitanda, T., Kaweeteerawat, C., Takahashi, TS., Itoh, T., Shirahige, K., Masukata, H., Nakagawa, T.
Rad51 suppresses gross chromosomal rearrangement at centromere in Schizosaccharomyces pombe. EMBO Journal, 27, 3036-3046 (2008)
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Nitani, N., Yadani, C., Yabuuchi, H., Masukata, H. and Nakagawa, T.
Mcm4 C-terminal domain of MCM helicase prevents excessive formation of single-stranded DNA at stalled replication forks. Proc. Natle. Acad. Sci.USA 105 (35), 12973-12978 (2008)
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Takahashi, T.S., Basu, A., Bermudez. V., Hurwitz. J. and Walter, J.C.
Cdc7-Drf1 kinase links chromosome cohesion to the initiation of DNA replication in Xenopus egg extracts. Genes Dev. 22 (14), 1894-1905 (2008)
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Hayashi, M., Katou, Y., Itoh, T., Tazumi, A., Yamada, Y., Takahashi, T., Nakagawa, T., Shirahige, K. and Masukata, H.
Genome-wide localization of pre-RC sites and identification of replication origins in fission yeast. EMBO J.26, 1327-1339 (2007); doi: 10.1038/sj.emboj.7601585
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Yabuuchi, H., Yamada, Y., Uchida, T., Sunathvanichkul, T., Nakagawa, T. and Masukata, H.
Ordered assembly of Sld3, GINS and Cdc45 is distinctly regulated by DDK and CDK for activation of replication origins. EMBO J. 25, 4663-4674 (2006).
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Nitani, N., Nakamura, KI., Nakagawa, C., Masukata, H. and Nakagawa, T.
Regulation of DNA Replication Machinery by Mrc1 in Fission Yeast. Genetics, 174, 155-165 (2006).
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Yamada, Y., Nakagawa, T., and Masukata, H. A novel intermediate in initiation complex assembly for fission yeast DNA replication. Mol. Biol. Cell. 15, 3740-3750 (2004)
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Ono, Y., Tomita, K., Matsuura, A., Nakagawa, T., Masukata, H., Uritani, M., Ushimaru, T., and Ueno, M. A novel allele of fission yeast rad11 that causes defects in DNA repair and telomere length regulation. Nucle. Acids Res. 31, 7141-7149 (2003)
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Takahashi, T., Ohara, E., Nishitani, H., and Masukata, H. Multiple ORC-binding sites are required for efficient MCM loading and origin firing in fission yeast. EMBO J. 22, 964-974 (2003)
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Nakajima, R., and Masukata, H. SpSld3 is required for loading and maintenance of SpCdc45 on chromatin in DNA replication in fission yeast. Mol. Biol. Cell. 13, 1462-1472 (2002)
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Takahashi, T., and Masukata, H. Interaction of fission yeast ORC with essential adenine/thymine stretches in replication origins. Genes to Cells. 6, 837-849 (2001)
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Ogawa, Y., Takahashi, T., and Masukata, H. Association of fission yeast Orp1 and Mcm6 proteins with chromosomal replication origins. Mol. Cell. Biol. 19, 7228-7236 (1999)
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Okuno, Y., Satoh, H., Sekiguchi, M., and Masukata, H. Clustered adenine/thymine stretches are essential for the function of a fission yeast replication origin. Mol. Cell. Biol. 19, 6699-6709 (1999)
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Ogawa, Y., Okazaki, T., and Masukata, H. Association of autonomous replication activity with replication origins in a human chromosome. Exp. Cell Res. 243, 50-58 (1998)
Obuse, C., Okazaki, T., and Masukata, H. Interaction of transcription factor YY1 with a replication-enhancing element, REE1, in an autonomously replicating human chromosome fragment. Nucle. Acids Res. 26, 2392-2397 (1998)
Obuse, C., Okazaki, T., and Masukata, H. Interaction of transcription factor YY1 with a replication-enhancing element, REE1, in an autonomously replicating human chromosome fragment. Nucle. Acids Res. 26, 2392-2397 (1998)
Okuno, Y., Okazaki, T., and Masukata, H. Identification of a predominant replication origin in fission yeast. Nucle. Acids Res. 25, 530-536 (1997)
Obuse, C., Okuno, Y., Okazaki, T., and Masukata, H. A replication-enhancing element with transcriptional silencer activity in human chromosomal fragments. Mol. Biol. Cell. 7, 43-55 (1996)
Masukata, H., Satoh, H., Obuse, C., and Okazaki, T. Autonomous replication of human chromosomal DNA fragments in human cells. Mol. Biol. Cell. 4, 1121-1132 (1993)
Masukata, H., and Tomizawa, J. A mechanism of formation of a persistent hybrid between elongating RNA and template DNA. Cell 62, 331-338 (1990)
Masumoto, H., Masukata, H., Muro, Y., Nozaki, N., and Okazaki, T. A human centromere antigen (CENP-B) interacts with a short specific sequence in alphoid DNA, a human centromeric satellite. J. Cell. Biol. 109, 1963-1973 (1989)
Ogawa, T., Masukata, H., and Tomizawa, J. Transcriptional regulation of early functions of bacteriophage 80. J. Mol. Biol. 202, 551-563 (1988)
Masukata, H., Dasgupta, S., and Tomizawa, J. Transcriptional activation of ColE1 DNA synthesis by displacement of the nontranscribed strand. Cell 51, 1123-1130 (1987)
Dasgupta, S., Masukata, H., and Tomizawa, J. Multiple mechanisms for initiation of ColE1 DNA replication: DNA synthesis in the presence and absence of ribonuclease H. Cell 51, 1113-1122 (1987)
Tomizawa, J., and Masukata, H. Factor-independent termination of transcription in a stretch of deoxyadenosine residues in the template DNA. Cell 51, 623-630 (1987)
Masukata, H., and Tomizawa, J. Control of primer formation for CsolE1 plasmid replication: Conformational change of the primer transcript. Cell 44, 125-136 (1986)
Masukata, H., and Tomizawa, J. Effects of point mutations on formation and structure of the RNA primer for ColE1 DNA replication. Cell 36, 513-522 (1984)
Masukata, H., Fujii, T., Ogawa, T., and Ogawa, H. Biologically active recombinant formed through DNA pairing by purified recA protein in vitro. Mol. Gen. Genet. 189, 226-234 (1983)
Masukata, H., and Ogawa, T. A mutation, bsu, that suppresses temperature-sensitive dnaB function in Escherichia coli K12. Mol. Gen. Genet. 180, 531-538 (1980)
Ogawa, T., Wabiko, H., Tsurimoto, T., Horii, T., Masukata, H. and Ogawa, H. Characteristics of purified recA protein and the regulation of its synthesis in vivo. Cold Spring Harbor Symposium on Quantitative Biology, Vol. XLIII, p909-915. (1979)
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