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Tadahiro Shimazu

Showing results (1-10 of 31) with videos related to

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Clinical Calcium|December 28, 2017
[Cellular metabolite controls oxidative stress resistance.]Tadahiro Shimazu
Tanpakushitsu Kakusan Koso. Protein, Nucleic Acid, Enzyme|December 7, 2007
[Biological diversity of protein lysine acetylation which has been revealed by small molecule inhibitors]Tadahiro Shimazu, Sueharu Horinouchi, Minoru Yoshida
Progress in Cell Cycle Research|November 5, 2003
Protein deacetylases: enzymes with functional diversity as novel therapeutic targetsMinoru Yoshida, Tadahiro Shimazu, Akihisa Matsuyama
The Journal of Biological Chemistry|December 19, 2006
Multiple histone deacetylases and the CREB-binding protein regulate pre-mRNA 3'-end processingTadahiro Shimazu, Sueharu Horinouchi, Minoru Yoshida
Accounts of Chemical Research|October 6, 2021
Propargylic <i>Se</i>-adenosyl-l-selenomethionine: A Chemical Tool for Methylome AnalysisYoshihiro Sohtome, Tadahiro Shimazu, Yoichi Shinkai, et al.
Methods in Enzymology|May 12, 2009
Acetylation of mitochondrial proteinsMatthew D Hirschey, Tadahiro Shimazu, Jing-Yi Huang, et al.
Iscience|August 18, 2025
Mitochondrial hyper-acetylation induced by an engineered acetyltransferase promotes cellular senescenceTadahiro Shimazu, Ayane Kataoka, Takehiro Suzuki, et al.
Plos One|August 22, 2014
Selenium-based S-adenosylmethionine analog reveals the mammalian seven-beta-strand methyltransferase METTL10 to be an EF1A1 lysine methyltransferaseTadahiro Shimazu, Joaquin Barjau, Yoshihiro Sohtome, et al.
Biochimica Et Biophysica Acta|January 12, 2010
Mitochondrial sirtuinsJing-Yi Huang, Matthew D Hirschey, Tadahiro Shimazu, et al.
Aging|June 25, 2011
SIRT1 and SIRT3 deacetylate homologous substrates: AceCS1,2 and HMGCS1,2Matthew D Hirschey, Tadahiro Shimazu, John A Capra, et al.
Pageof 4

Showing results (1-10 of 31) with videos related to

Sort By:
Pageof 4
Clinical Calcium|December 28, 2017
[Cellular metabolite controls oxidative stress resistance.]Tadahiro Shimazu
Tanpakushitsu Kakusan Koso. Protein, Nucleic Acid, Enzyme|December 7, 2007
[Biological diversity of protein lysine acetylation which has been revealed by small molecule inhibitors]Tadahiro Shimazu, Sueharu Horinouchi, Minoru Yoshida
Progress in Cell Cycle Research|November 5, 2003
Protein deacetylases: enzymes with functional diversity as novel therapeutic targetsMinoru Yoshida, Tadahiro Shimazu, Akihisa Matsuyama
The Journal of Biological Chemistry|December 19, 2006
Multiple histone deacetylases and the CREB-binding protein regulate pre-mRNA 3'-end processingTadahiro Shimazu, Sueharu Horinouchi, Minoru Yoshida
Accounts of Chemical Research|October 6, 2021
Propargylic <i>Se</i>-adenosyl-l-selenomethionine: A Chemical Tool for Methylome AnalysisYoshihiro Sohtome, Tadahiro Shimazu, Yoichi Shinkai, et al.
Methods in Enzymology|May 12, 2009
Acetylation of mitochondrial proteinsMatthew D Hirschey, Tadahiro Shimazu, Jing-Yi Huang, et al.
Iscience|August 18, 2025
Mitochondrial hyper-acetylation induced by an engineered acetyltransferase promotes cellular senescenceTadahiro Shimazu, Ayane Kataoka, Takehiro Suzuki, et al.
Plos One|August 22, 2014
Selenium-based S-adenosylmethionine analog reveals the mammalian seven-beta-strand methyltransferase METTL10 to be an EF1A1 lysine methyltransferaseTadahiro Shimazu, Joaquin Barjau, Yoshihiro Sohtome, et al.
Biochimica Et Biophysica Acta|January 12, 2010
Mitochondrial sirtuinsJing-Yi Huang, Matthew D Hirschey, Tadahiro Shimazu, et al.
Aging|June 25, 2011
SIRT1 and SIRT3 deacetylate homologous substrates: AceCS1,2 and HMGCS1,2Matthew D Hirschey, Tadahiro Shimazu, John A Capra, et al.
Pageof 4