Rchr
J-GLOBAL ID:200901066651568187
Update date: Apr. 10, 2024
Murakami Yota
ムラカミ ヨウタ | Murakami Yota
Affiliation and department:
Job title:
Professor
Homepage URL (1):
http://wwwchem.sci.hokudai.ac.jp/~bo/
Research field (2):
Genetics
, Genetics
Research keywords (11):
chromosome replication
, epigenetics
, ヘテロクロマチン
, セントロメア
, 染色体分配
, クロマチン構造
, Heterochromatin
, Centromere
, Chromosome segregation
, Chromatin structure
, Chromosomal replication
Research theme for competitive and other funds (39):
- 2019 - 2024 ヒストン修飾Eraserによる抑制的エピゲノムの維持・変動制御機構の解明
- 2021 - 2023 エピジェネティック変異の多様性増大を介した環境適応機構の探索
- 2019 - 2022 Analysis of total regulatory mechanism of gene expression mediated by transcription speed control
- 2018 - 2020 Analysis of adaptive mutation induced by epeigenetic mutation
- 2016 - 2018 Screening of no-coding RNA that can control transcription and chromatin
- 2013 - 2016 Regulation of gene expression through RNAi dependent heterochromatin formation and nuclear membrane
- 2013 - 2015 jmjCドメインタンパク質Epe1によるゲノムワイドなヘテロクロマチン制御機構
- 2013 - 2015 RNAポリメラーゼIIとRNA・クロマチンのクロストーク
- 2013 - 2015 Study on the molecular mechanisms of chromatin fluctuation
- 2011 - 2013 非コードRNAに制御されるヘテロクロマチン形成場の解析
- 2010 - 2011 細胞周期進行にともなうヘテロクロマチン機能制御機構の解明
- 2009 - 2011 Analysis of dynamic structure-function network of heterochromatin
- 2009 - 2010 ゲノムに存在するDNA:RNAハイブリッドの探索と機能解析
- 2008 - 2009 Regulation of fate-determination of RNA and role of transcriptional machinery in heterochromatin formatin
- 2005 - 2009 Elucidating the roles of higher-order chromatin structure in the formation of chromosomal domains
- 2006 - 2008 Mechanism for heterochromatin formation depending on non-coding RNA and RNAi
- 2006 - 2007 RNAi依存的ヘテロクロマチン形成に重要なnon-coding RNA転写反応
- 1996 - 2006 真核細胞の染色体複製制御機構の解析
- 2005 - 2005 RNAi依存的なサイレントクロマチン形成におけるRNAポリメラーゼIIの特異的機能
- 2004 - 2005 Dynamics of Silent Chromatin Structure
- 2000 - 2005 From G1 regulators to Replication machinery
- 2000 - 2004 クロマチン構造および転写因子による染色体複製の制御機構の研究
- 2000 - 2000 分裂酵母を用いたヘテロクロマチン形成・維持機構の解明
- 2000 - 真核細胞の染色体機能におけるクロマチン・核の高次構造の役割の解明
- 1999 - 1999 転写因子による染色体複製開始調節機構の解析
- 1998 - 1999 Dynamics of DNA replication initiation complex in fission yeast during cell cycle
- 1996 - 1999 p21によるPCNAの機能制御と細胞のがん化
- 1998 - 1998 分裂酵母をを用いた試験管内複製系の構築
- 1998 - 1998 転写調節因子による染色体複製開始調節機構の解析
- 1998 - 1998 分裂酵母の2つのCENP-Bホモログ、Abp1、Cbhの機能解析
- 1997 - 1997 転写因子による染色体複製制御機構の解析
- 1997 - 1997 ヒトセントロメア結合蛋白質に相同性をもつ分裂酵母のARS結合蛋白質Abp1の解析
- 1996 - 1996 人工的ARS配列を用いた分裂酵母複製開始蛋白質同定の試み
- 1996 - 1996 転写因子による染色体複製制御の解析
- 1996 - 1996 ヒトセントロメア結合蛋白質に相同性をもつ分裂酵母ARS結合蛋白質Abp1の解析
- 1994 - 1996 Information Exchange on Cancer Research with North American
- 1994 - 1994 転写因子c-jun,c-fosによるDNA複製制御の研究
- Structure and Funtion of higher order chromatin structure in the nuclei
- Regulation of eukariotic chromosome replication
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Papers (65):
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Tetsuya Yamamoto, Takahiro Asanuma, Yota Murakami. Polymeric nature of tandemly repeated genes enhances assembly of constitutive heterochromatin in fission yeast. Communications Biology. 2023. 6. 1
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Shinya Takahata, Yota Murakami. Opposing Roles of FACT for Euchromatin and Heterochromatin in Yeast. Biomolecules. 2023. 13. 2
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Taichi Bun, Yuta Sato, Hajime Futami, Yuki Tagawa, Yota Murakami, Masayuki Takahashi. Cytoskeletal fractionation identifies LMO7 as a positive regulator of fibroblast polarization and directed migration. Biochemical and Biophysical Research Communications. 2023. 638. 58-65
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Takahiro Asanuma, Soichi Inagaki, Tetsuji Kakutani, Hiroyuki Aburatani, Yota Murakami. Tandemly repeated genes promote RNAi-mediated heterochromatin formation via an antisilencing factor, Epe1, in fission yeast. Genes & Development. 2022
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Satoru Tsunemine, Hiromi Nakagawa, Yutaka Suzuki, Yota Murakami. The chromatin remodeler RSC prevents ectopic CENP-A propagation into pericentromeric heterochromatin at the chromatin boundary. Nucleic Acids Research. 2022. 50. 19. 10914-10928
more...
MISC (24):
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Regulation of Chromatin structure by transcription machinery. 2017. 89. 3. 441-444
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Takuya Kajitani, Hiroaki Kato, Yuji Chikashige, Hiroshi Kimura, Yasuyuki Ohkawa, Damien Herand, Yota Murakami. Phosphorylation at Ser7 of RNA polymerase II CTD limits transcription speed and transcription elongation. GENES & GENETIC SYSTEMS. 2016. 91. 6. 348-348
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Takuya Kajitani, Hiroaki Kato, Yuji Chikashige, Yasushi Hiraoka, Hiroshi Kimura, Yasuyuki Ohkawa, Damien Hermand, Yota Murakami. Phosphorylation at Ser7 of RNAPII-CTD ensures on-chromatin retention of nascent ncRNAs, triggering RNAi-dependent heterochromatin formation. GENES & GENETIC SYSTEMS. 2014. 89. 6. 331-331
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Kei Kawakami, Aki Hayashi, Jun-ichi Nakayama, Yota Murakami. A novel RNAi protein, Dsh1, assembles RNAi machinery on chromatin to amplify heterochromatic siRNA (vol 26, pg 1811, 2012). GENES & DEVELOPMENT. 2012. 26. 19. 2251-2251
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Hidetsugu Kohzaki, Yota Murakami. A transcription factor Abf1 facilitates ORC binding onto the Saccharomyces cerevisiae replication origin via histone acetylase Gcn5. GENES & GENETIC SYSTEMS. 2011. 86. 6. 383-383
more...
Education (4):
- Kyoto University Faculty of Science
- 京都大学理学研究科
- Kyoto University, Faculty of Science
- Kyoto University, Graduate School of Science
Professional career (1):
Work history (10):
- 2009/04 - 現在 Faculty of Science, Hokkaido University Professor
- 1993/10 - 現在 Associate Professor,
- 1993/10 - 2009/03 Institute for Virus Research, Kyoto University Associate Professor
- 1990/10 - 1993/10 米国スローン・ケタリング記念がんセンター
- 1990/10 - 1993/10 Memorial Sloan-Keetering Cancer Center(USA),
- 1987/10 - 1990/10 博士研究員京都大学ウィルス研究所
- 1987/10 - 1990/10 Institute for Virus Research,
- 博士研究員
- Institute for Virus Research, Kyoto University
- Postdoctoral Fellow
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Association Membership(s) (4):
エピジェネティクス研究会
, JAPAN SOCIETY FOR CELL BIOLOGY
, 分子生物学会
, The Molecular Biology Society of Japan
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