Rchr
J-GLOBAL ID:202001018571589632   Update date: Jul. 17, 2024

Senmatsu Satoshi

センマツ サトシ | Senmatsu Satoshi
Affiliation and department:
Job title: 博士後期課程 (日本学術振興会)特別研究員DC1
Research field  (1): Molecular biology
Research keywords  (20): RNA ,  転写 ,  ニワトリBリンパ 球DT40細胞 ,  transcriptome ,  ゲノムDNA ,  double strand break (DSB) ,  mlonRNA (metabolic stress-induced long noncoding RNA) ,  分裂酵母ade6-M26 ,  分裂酵母fbp1 ,  クロマチン再編成 ,  long noncoding RNA ,  環境ストレス応答 ,  分裂酵母 ,  組換え ,  減数分裂 ,  遺伝子発現制御 ,  ヒストン修飾 ,  染色体 ,  クロマチン ,  noncoding RNA
Research theme for competitive and other funds  (1):
  • 2019 - 2022 長鎖非コードRNAの新規転写活性化機構の解明とそのゲノムワイドな解析
Papers (8):
  • Wakana Koda, Satoshi Senmatsu, Takuya Abe, Charles S Hoffman, Kouji Hirota. Reciprocal stabilization of transcription factor binding integrates two signaling pathways to regulate fission yeast fbp1 transcription. Nucleic Acids Research. 2021. 49. 17. 9809-9820
  • Satoshi Senmatsu, Ryuta Asada, Arisa Oda, Charles S. Hoffman, Kunihiro Ohta, Kouji Hirota. lncRNA transcription induces meiotic recombination through chromatin remodelling in fission yeast. Communications Biology. 2021. 4. 1. 295-295
  • Ryuta Asada, Satoshi Senmatsu, Ben Montpetit, Kouji Hirota. Topoisomerase activity is linked to altered nucleosome positioning and transcriptional regulation in the fission yeast fbp1 gene. PLOS ONE. 2020. 15. 11. e0242348-e0242348
  • Satoshi Senmatsu, Kouji Hirota. Roles of lncRNA transcription as a novel regulator of chromosomal function. Genes & Genetic Systems. 2020
  • Satoshi Senmatsu, Ryuta Asada, Takuya Abe, Charles S Hoffman, Kunihiro Ohta, Kouji Hirota. lncRNA transcriptional initiation induces chromatin remodeling within a limited range in the fission yeast fbp1 promoter. Scientific reports. 2019. 9. 1. 299-299
more...
Lectures and oral presentations  (3):
  • 非コード RNA 転写共役型クロマチン再編成による転写・組換え制御機構の解析
    (第 37 回 染色体ワークショップ 第 18 回 核ダイナミクス研究会 2029)
  • 非コード RNA 転写共役型クロマチン再編成による転写・組換え制御機構の解析
    (酵母遺伝学フォーラム 2019)
  • Transcription of metabolic stress-induced lncRNA(mlonRNA) induces chromatin remodeling and activates transcription and meiotic recombination in fission yeast.
    (分子生物学会 ConBio2017 2017)
Work history (1):
  • 2019/04 - 現在 首都大学東京 理学研究科 化学専攻 博士後期課程 (学術振興会特別研究員DC1)
Awards (1):
  • 2018 - GGS Prize 2018 Interplay between chromatin modulators and histone acetylation regulates the formation of accessible chromatin in the upstream regulatory region of fission yeast fbp1
Association Membership(s) (2):
分子生物学会 ,  酵母遺伝学会
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