Shinohara Akira

シノハラアキラ | Shinohara Akira

Affiliation and department：
Job title： Professor
Homepage URL (1)： http://www.protein.osaka-u.ac.jp/genome/index.html

Research field (2)： Molecular biology , Genetics

Research theme for competitive and other funds (3)：

Papers (79)：

Tai-Ting Woo, Chi-Ning Chuang, Mika Higashide, Akira Shinohara, Ting-Fang Wang. Dual roles of yeast Rad51 N-terminal domain in repairing DNA double-strand breaks. Nucleic Acids Research. 2020
Zhu, Z, Bani, I, Shinohara, M, A. Shinohara. SCF(Cdc4) ubiquitin ligase regulates synaptonemal complex formation during meiosis. BioRxiv. 2020
G.N. Krishnaprasada, V.P. Ajith, Shinohara, M, Chakraborty, P, Lin, G. Steinmetz, L.M, Shinohara, A, Nishant K.T. The baker’s yeast Msh4-Msh5 binds to double-strand break hotspots distant to chromosome axis to promote crossovers. BioRxiv. 2020
Lee, M.-S, Higashide, M, Hong, S, Lee, K, Shinohara, A, Shinohara, M, K.P. Kim. Synaptonemal complex central regions modulates crossover pathways and feedback control of meiotic double-strand break formation. BioRxiv. 2020
Rei Nouchi, Hiroaki Aihara, Fumie Arie, Makoto Asashima, Hiroyuki Daida, Jun, Fudano, Yasuhiro Fujiwara, Shinji Fushiki, Robert J, Geller, Kazuo Hatano, Toshio Homma, Minoru Kimura, Toshio Kuroki, Koichi, Miki, Ikuo Morita, Kosaku Nitta, Akira Shinohara, Mikiko C, Siomi, Masayuki Yoshida, Iekuni Ichikawa. Toward Global Standardization of Conducting Fair Investigations of Allegations of Research Misconducts. Accountability in Research: Policies and Quality Assurance. 2020. 27. 6. 327-346

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MISC (40)：

Challa Kiran, Miki Shinohara, Akira Shinohara. Prophase pathway of arm-cohesin removal in budding yeast meiosis. GENES & GENETIC SYSTEMS. 2014. 89. 6. 278-278
Terasawa, Masahiro, Shinohara, Akira, Shinohara, Miki. Double-strand break repair-adox: Restoration of suppressed double-strand break repair during mitosis induces genomic instability. CANCER SCIENCE. 2014. 105. 12. 1519-1525
Masaaki Miyamoto, Yuta Tsukamoto, Chisako Katayama, Miki Shinohara, Akira Shinohara, Shohei Maekawa. The small GTPase Rab5 controls cell morphology, sexual development, ion-stress response and vacuolar formation in fission yeast. FASEB JOURNAL. 2014. 28. 1
Santosh Kumar Gothwal, Takehiko Usui, Miki Shinohara, Akira Shinohara. Roles of Pal1 complex in Meiosis of Budding Yeast. GENES & GENETIC SYSTEMS. 2013. 88. 6. 379-379
Challa Kiran, Hbd Prasad Rao, Miki Shinohara, Akira Shinohara. Regulatory mechanism of nuclear envelope remodelling during budding yeast meiosis. GENES & GENETIC SYSTEMS. 2013. 88. 6. 379-379

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Lectures and oral presentations (16)：

Human RAD51 paralog, SWSAP1, promotes RAD51 assembly by regulating the anti-recombinase, FIGNL1 AAA+ ATPase
(Seminar at IISER Thiruvananthapuram 2019)
Human RAD51 paralog, SWSAP1, promotes RAD51 assembly by regulating the anti-recombinase, FIGNL1 AAA+ ATPase
(Emerging Concepts in Chromosome Biology”,at IMP Vienna 2019)
Human RAD51 paralog, SWSAP1, promotes RAD51 assembly by regulating the anti-recombinase, FIGNL1 AAA+ ATPase
(Seminar at UC Davis, USA 2019)
Human RAD51 paralog, SWSAP1, promotes RAD51 assembly by regulating the anti-recombinase, FIGNL1 AAA+ ATPase
(Keystone symposium on DNA Replication and Genome Instability: From Mechanism to Disease 2019)
Control of Rad51-assembly and disassembly by Rad51 paralogues and anti-recombinases
(Chromosome stability meeting, Bangalore, India 2018)

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Works (4)：

Biochemical characterization of Rad52 protein
1990 - 1993
Analysis of functions of RAD51 and DMC1 in meiosis
1993 -
Biochemical characterization of Rad51 protein from yeast.
1993 -
Characterization of functional domains of E. coli RecA protein by intragenic suppressors
1985 - 1989

Education (5)：

Professional career (2)：

Work history (4)：

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