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 keywords (1)：分子生物学

Research theme for competitive and other funds (6)：

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Papers (81)：

HBD Prasada Rao, Takeshi Sato, Kiran Challa, Yurika Fujita, Miki Shinohara, Akira Shinohara. Phosphorylation of luminal region of the SUN-domain protein Mps3 promotes nuclear envelope localization during meiosis. BioRxiv. 2021
Michael Gioia, Lisette Payero. Gianno, Pannafino, Jun Jie Chen, Sagar Salim, Ghanim, Fajith V, Amamah F. Farnaz, Sherikat Momoh, Michelle Scotland, et al. Exo1-protected DNA nicks direct crossover formation in meiosis. BioRxiv. 2021
Tomoko Takagi, Masako Osumi, Akira Shinohara. Ultrastructural analysis in yeast reveals a meiosis-specific actin-containing nuclear bundle. Communications Biology. 2021. 4. 1009
Krishnaprasad G Nandanan, Sagar Salim, Ajith V Pankajam, Miki Shinohara, Gen Lin, Parijat Chakraborty, Amamah Farnaz, Lars M Steinmetz, Akira Shinohara, Koodali T Nishant. Regulation of Msh4-Msh5 association with meiotic chromosomes in budding yeast. Genetics. 2021. in press
Isao Suetake, Shigeaki Nakazawa, Kazunobu Sato, Risa Mutoh, Yuichi Mishima, Toru Kawakami, Toshiki Takei, Mikio Watanabe, Norio Sakai, Toshimichi Fujiwara, et al. Structural dynamics of the chromo-shadow domain and chromodomain of HP1 bound to histone H3K9 methylated peptide, as measured by site-directed spin-labeling EPR spectroscopy. Biochemical and Biophysical Research Communications. 2021. 567. 42-48

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MISC (47)：

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
Tomoko Takagi, Masako Osumi, Akira Shinohara. Nuclear actin cable with multiple branches during yeast meiosis. BioRxiv. 2019
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
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

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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 (12)：

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Education (5)：

Professional career (2)：

Work history (9)：

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Awards (3)：

2021/04 - Awards for Science and Technology Study on molecular mechanism of homologous recombination
2009 - 大阪市大阪府大阪科学技術センター大阪科学賞
1992 - 日本分子生物学会東燃研究奨励賞

Association Membership(s) (1)：

日本分子生物学会

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