[1]. APC/C-Cdh1-dependent anaphase and telophase progression during mitotic slippage
Cell Divi 7/(4) (xxx) - (zzz) (2010年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 瓜谷 眞裕
[2]. Sorting defects of the tryptophan permease Tat2 in an erg2 yeast mutant
Microbiol Lett 298/((2) 218-27-227 (2009年) [査読] 無 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 瓜谷 眞裕
[3]. The ergosterol biosynthesis inhibitor zaragozic acid promotes vacuolar degradation of the tryptophan permease Tat2p in yeast
Biochim Biophys Acta 1768/((7) 1681-1690 (2007年) [査読] 有 [国際共著論文] 該当しない
[責任著者・共著者の別] 共著者
[著者] 瓜谷 眞裕
[4]. TOR regulates late steps of ribosome maturation in the nucleoplasm via Nog1 in response to nutrients.
EMBO JOURNAL 25/ 3832-3842 (2006年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Honma Y [共著者]Kitamura A,Shioda R,Maruyama H,Ozaki K,Oda Y,Mini T,Jeno P,Maki Y,Yonezawa K,Hurt E,Ueno M,Uritani M,Hall M N,Ushimaru T
[5]. A starvation-specific serine protease gene, isp6+, is involved in both autophagy and sexual development in Schizosaccharomyces pombe.
CURRENT GENETICS 49/ 403-413 (2006年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Nakashima A [共著者]Hasegawa T,Mori S,Ueno M,. Tanaka S,Ushimaru T,Sato S,,Uritani M
[6]. Fission yeast Tor2 links nitrogen signals to cell proliferation and acts downstream of the Rheb GTPase.
GENES TO CELLS 11/ 1367-1379 (2006年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Uritani M [共著者]Hidaka H,Hotta Y,Ueno M,Ushimaru T,,Toda T
[7]. Fission yeast Arp6 is required for telomere silencing, but functions independently of Swi6.
NUCLEIC ACIDS RESEARCH 32/2 736-41 (2004年) [査読] 有
[責任著者・共著者の別] 責任著者
[8]. Fission yeast Arp6 is required for telomere silencing, but functions independently of Swi6.
NUCLEIC ACIDS RESEARCH 32/ 736-741 (2004年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Ueno M [共著者]Murase T,Kibe T,Ohashi N,Tomita K,Murakami Y,Uritani M,Ushimaru T,Harata M.
[9]. Fission Yeast Dna2 Is Required for Generation of the Telomeric Single-Strand Overhang.
MOLECULAR AND CELLULAR BIOLOGY 24/ 9557-9567 (2004年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Tomita [共著者]K.,Kibe,T.,Kang,H-Y.,Seo,Y-S.,Uritani,M.,Ushimaru,T.,Ueno,M. Molecular & Cell Biology
[10]. Sequence-specific binding of the Schizosaccharomyces pombe His1 protein to fission yeast telomeric DNA.
Chemistry & Biodiversity 1/ 1344-1353 (2004年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Tomita [共著者]K.,Uritani,M.,Ushimaru,T. Yoshinaga,K.,Ueno,M.
[11]. A novel allele of fission yeast rad11 that causes defects in DNA repair and telomere length regulation.
NUCLEIC ACIDS RESEARCH 31/24 7141-7149 (2003年)
[責任著者・共著者の別] 責任著者
[12]. Fission yeast Rhp51 is required for the maintenance of telomere structure in the absence of the Ku heterodimer.
NUCLEIC ACIDS RESEARCH 31/17 5054-5063 (2003年) [査読] 有
[責任著者・共著者の別] 責任著者
[13]. Competition between the Rad50 complex and the Ku heterodimer reveals a role for Exo1 in processing double-strand breaks but not telomeres.
MOLECULAR AND CELLULAR BIOLOGY 23/15 5186-5197 (2003年) [査読] 有
[責任著者・共著者の別] 責任著者
[14]. A novel allele of fission yeast rad11 that causes defects in DNA repair and telomere length regulation.
NUCLEIC ACIDS RESEARCH 31/ 7141-7149 (2003年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Ono Y [共著者]Tomita K,Matsuura A,Nakagawa T,Masukata H,Uritani M,Ushimaru T,Ueno M.
[15]. Competition between the Rad50 complex and the Ku heterodimer reveals a role for Exo1 in processing double-strand breaks but not telomeres.
MOLECULAR AND CELLULAR BIOLOGY 23/ 5186-5197 (2003年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Tomita K [共著者]Matsuura A,Caspari T,Carr AM,Akamatsu Y,Iwasaki H,Mizuno K,Ohta K,Uritani M,Ushimaru T,Yoshinaga K,Ueno M
[16]. Fission yeast Rhp51 is required for the maintenance of telomere structure in the absence of the Ku heterodimer.
NUCLEIC ACIDS RESEARCH 31/ 5054-5063 (2003年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Kibe T [共著者]Tomita K,Matsuura A,Izawa D,Kodaira T,Ushimaru T,Uritani M,Ueno M.
[17]. Involvement of a CCAAT-binding complex in the expression of a nitrogen-starvation-specific gene, isp6+, in Schizosaccharomyces pombe.
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY 66/10 2224-2227. (2002年) [査読] 有
[責任著者・共著者の別] 責任著者
[18]. A novel non-conventional heat shock element regulates expression of MDJ1 encoding a DnaJ homolog in Saccharomyces cerevisiae.
JOURNAL OF BIOLOGICAL CHEMISTRY 277/25 22140-22146 (2002年) [査読] 有
[責任著者・共著者の別] 責任著者
[19]. Genes for a nuclease and a protease are involved in the drastic decrease in cellular RNA amount in fission yeast cells during nitrogen starvation
JOURNAL OF BIOCHEMISTRY 131/3 391-398 (2002年) [査読] 有
[責任著者・共著者の別] 責任著者
[20]. A novel non-conventional heat shock element regulates expression of MDJ1 encoding a DnaJ homolog in Saccharomyces cerevisiae.
JOURNAL OF BIOLOGICAL CHEMISTRY 277/ 22140-22146 (2002年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Tachibana T [共著者]Astumi S,Shioda R,Ueno M,Uritani M,Ushimaru T.
[21]. Genes for a nuclease and a protease are involved in the drastic decrease in cellular RNA amount in fission yeast cells during nitrogen starvation.
JOURNAL OF BIOCHEMISTRY 131/ 391-398 (2002年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Nakashima A [共著者]Yoshida M,Nakayama K,Kato-Furuno A,Ueno M,Ushimaru T,Uritani M.
[22]. Involvement of a CCAAT-binding complex in the expression of a nitrogen-starvation-specific gene, isp6+, in Schizosaccharomyces pombe.
BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY 66/ 2224-2247 (2002年) [査読] 有
[責任著者・共著者の別] 共著者
[著者] [責任著者]Nakashima A [共著者]Ueno M,Ushimaru T,Uritani M.
[23]. Fission yeast tor1 functions in response to various stresses including nitrogen starvation, high osmolarity, and high temperature
CURRENT GENETICS 39/3 166-74. (2001年) [査読] 有
[責任著者・共著者の別] 責任著者
[24]. Schizosaccharomyces pombe taf1+ is required for nitrogen starvation-induced sexual development and for entering the dormant GO state.
CURRENT GENETICS 38./6 307-313 (2001年) [査読] 有
[責任著者・共著者の別] 責任著者
[25]. Fission Yeast Tor1 functions in response to various stresses including nitrogen starvation, high osmolarity, and high temperature
Current Genetics 39/ 166-174 (2001年)
[責任著者・共著者の別]
[26]. Schizosaccharomyces pombe tafl+ is required for nitrogen -starvation-induced sexual development and for entering the dormant Go state
Current Genetics 38/ 307-313 (2001年)
[責任著者・共著者の別]
[27]. Detection and Analysis of Translation Elongation Factor 3 Genes from Various Yeasts
Bioscience, Biotechnology and Biochemistry 63/ 769-772 (1999年)
[責任著者・共著者の別]
[28]. A simple and inexpensive dot-blotter for immunoblotting
Biochemical Education 27/ 169-170 (1999年)
[責任著者・共著者の別]
[29]. Activation of the 20S proteasome of Xenopus Oocytes by Cardiolipin : Blockage of the activation of trypsin-like activity by the substrate(共著)
Bioscience. Biotechnology and Biochemistry 62/6 1264-1266 (1998年)
[責任著者・共著者の別]
[30]. Protection by trehalose of DNA from Radiation Damage
Bioscience Biotechnology and Biochemistry 61/1 160-161 (1997年)
[責任著者・共著者の別]
[31]. Purification and properties of trehalose-synthesizing enzyme from Pseudomonas sp. F1(共著)
Journal of Fermentation and Bioengineering 84/4 358-360 (1997年)
[責任著者・共著者の別]
[32]. Monoclonal Antibody Specific for Carboxy-terminal Region of Yeast Elongation Factor-3 Inhibits Its Ribosome-activated ATPose But Not Intrinsic ATPose
Biochemistry and Molecular Biology International 39/ 227 (1996年)
[責任著者・共著者の別]
[33]. マルトースを基質としたホスホリラーゼによるトレハロースの合成方法
精糖技術研究会誌 44/ 43-49 (1996年)
[責任著者・共著者の別]
[34]. Enzymatic Synthesis of Trehalose from Maltose with Phosphorylase
44/ 43-49 (1996年)
[責任著者・共著者の別]
[35]. An Apparatus for Immunnoblotting Using a Maghetic Rubber Sheet
Analytical Biochemistry 234/ 230-232 (1996年)
[責任著者・共著者の別]
[36]. Protective Effect of Disaccharides on Restriction Endonucleases during Drying under Vacuum
Journal of Biochemistry 117/4 774-779 (1995年)
[責任著者・共著者の別]
[37]. Polyamino Acids That Inhibit the Interaction of Yeast Translational Elongation Factor-3 (EF-3) with Ribosomes
Journal of Biochemistry 115/5 820-824 (1994年)
[責任著者・共著者の別]
[38]. Properties of nucleases that appear in fission yeast cells under nitrogen starvation
Nucleic Acids Symposium Series /31 213-214 (1994年)
[責任著者・共著者の別]
[39]. Mechanism of the activation of a nuclease activity in fission yeast cells under nitrogen starvation
Nucleic Acids Symposium Series /31 211-212 (1994年)
[責任著者・共著者の別]
[40]. Post-Transcriptional Control of Gene Experession
(1991年)
[責任著者・共著者の別]
[41]. The Difference in the Type of Codon-Anticodon Base Pairing Is One of the Determinants of the Translational Rate
Journal of Biochemistry 107/ 242-247 (1990年)
[責任著者・共著者の別]
[42]. Role of Yeast Elongation Factor 3 at the AA-tRNA Binding Step
Journal of Biochemistry 104/ 118-126 (1988年)
[責任著者・共著者の別]
[43]. Changes in Ribosomal Properties During Adenylate Deprivation in the Cells of Kluyveromyces(/)- lactis(/)-
YEAST 4 (1988年)
[責任著者・共著者の別]
[44]. Characterization of the ATPase and GTPase Activities of Elongation Factor 3 Purified from Yeasts
Journal of Biochemistry 103/ 522-530 (1988年)
[責任著者・共著者の別]
[45]. The Yeast Peptide Elongation Factor 3 Carries an Active Site for ATPase Hydrolysis Which Can Interact with Various Nucleoside Triphosphates in the Absence of Ribosome
Journal of Biochemistry 104/ 445-450 (1988年)
[責任著者・共著者の別]
[46]. 阻害剤研究法
(1985年)
[責任著者・共著者の別]
[47]. Inhibitors in Modern Biology and Medicine
(1985年)
[責任著者・共著者の別]
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