OHNO Satoshi

J-GLOBAL         Last updated: Jul 2, 2019 at 02:42
 
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Name
OHNO Satoshi
Affiliation
Gifu University
Section
Faculty of Engineering

Research Areas

 

Academic & Professional Experience

 
 
   
 
Assistant Professor, Gifu University Faculty of Engineering, Department of Biomolecular Science
 

Published Papers

 
Kawamura Takuya, Hirata Akira, Ohno Satoshi, Nomura Yuichiro, Nagano Tomoko, Nameki Nobukazu, Yokogawa Takashi, Hori Hiroyuki
Nucleic acids research   44(4) 1894-1908   Feb 2016   [Refereed]
Archaeosine (G(+)), which is found only at position 15 in many archaeal tRNA, is formed by two steps, the replacement of the guanine base with preQ0 by archaeosine tRNA-guanine transglycosylase (ArcTGT) and the subsequent modification of preQ0 to ...
Nomura Yuichiro, Ohno Satoshi, Nishikawa Kazuya, Yokogawa Takashi
Genes to cells : devoted to molecular&cellular mechanisms   21(1) 41   Jan 2016   [Refereed]
In many archaeal tRNAs, archaeosine is found at position 15. During archaeosine biosynthesis, archaeal tRNA-guanine transglycosylase (ArcTGT) first replaces the guanine base at position 15 with 7-cyano-7-deazaguanine (preQ0). In this study, we inv...
Yamashita Shinji, Shibata Naoya, Boku-Ikeda Akiyoshi, Abe Erika, Inayama Ayumi, Yamaguchi Takashi, Higuma Ayano, Inagaki Kaoru, Tsuyuzaki Tomoyo, Iwamoto Satoshi, Ohno Satoshi, Yokogawa Takashi, Nishikawa Kazuya, Biswas Kazal Boron, Nabi A H M Nurun, Nakagawa Tsutomu, Suzuki Fumiaki, Ebihara Akio
BMC biotechnology   16 33   2016   [Refereed]
Angiotensinogen (ANG) is a macromolecular precursor of angiotensin, which regulates blood pressure and electrolyte balance. ANG is specifically cleaved by renin, an aspartic protease, to initiate the angiotensin-processing cascade. Ovine ANG (oANG...
Ikeda-Boku Akiyoshi, Kondo Keisuke, Ohno Satoshi, Yoshida Erika, Yokogawa Takashi, Hayashi Nobuhiro, Nishikawa Kazuya
Journal of biochemistry      Jun 2013   [Refereed]
We developed a novel method for capturing proteins that interact with a target protein. This method utilizes a protein containing a site-specifically incorporated 3-azidotyrosine (N3-Y) and FG beads for immobilization of the protein via an azido g...
Ikeda-Boku Akiyoshi, Ohno Satoshi, Hibino Yuuka, Yokogawa Takashi, Hayashi Nobuhiro, Nishikawa Kazuya
Journal of biochemistry   153(3) 317-326   Mar 2013   [Refereed]
We developed an efficient method for introduction of 3-azidotyrosine (N(3)-Y) into proteins in Escherichia coli cells. We constructed a plasmid that is adaptable for the constitutive expression of both Methanosarcina acetivorans tyrosyl-tRNA synth...
Yoshimura Shige H, Khan Shahbaz, Ohno Satoshi, Yokogawa Takashi, Nishikawa Kazuya, Hosoya Takamitsu, Maruyama Hiroyuki, Nakayama Yoshikazu, Takeyasu Kunio
Bioconjugate chemistry   23(7) 1488-1493   Jul 2012   [Refereed]
Establishing a nanobiohybrid device largely relies on the availability of various bioconjugation procedures which allow coupling of biomolecules and inorganic materials. Especially, site-specific coupling of a protein to nanomaterials is highly us...

Conference Activities & Talks

 
アジドチロシンを利用したタンパク質の位置指定修飾
Dec 2005   

Research Grants & Projects

 
The Making of new functional protein
Japan Society for the Promotion of Science: Grants-in-Aid for Scientific Research
Project Year: 2013 - 2015
Japan Society for the Promotion of Science: Grants-in-Aid for Scientific Research
Project Year: 2013 - 2015