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Difference between revisions of "User:Sei Motouchi"

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I am a Ph.D. candidate at Tokyo University of Science. My research interests concern structure and function of new CAZymes, especially β-1,2-glucan-related enzymes responsible for enabling interactions between organisms. I contributed to the biochemical identification and/or structural determination of:
  
I am a Ph. D candidate at Tokyo university of science. My research interests concern structure and function of new CAZymes, especially β-1,2-glucan-related enzymes responsible for enabling interactions between organisms. I contributed to the biochemical identification and/or structural determination of
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* [[GH186]] ''Escherichia coli'' endo β-1,2-glucanase (EcOpgD) (biochemical identification, determination of Michaelis complex and Suggestion of unique reaction mechanism) '''Family first''' <cite>Motouchi2023</cite>.
 
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* [[GH186]] ''Escherichia coli'' endo β-1,2-glucanase (EcOpgG) (biochemical identification and determination of Michaelis complex) <cite>Motouchi2023</cite>.
[[GH186]] Escherichia coli endo β-1,2-glucanase (EcOpgD) '''Family first'''<cite>Motouchi2023</cite>.
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* [[GH186]] ''Xanthomonas campestris'' pv. ''campestris'' α-1,6-cyclized β-1,2-glucohexadecaose synthase (XccOpgD) (biochemical identification, determination of Michaelis complex and Suggestion of reaction mechanism) '''First-identified anomer-inverting transglycosylase''' <cite>Motouchi2024</cite>.
 
 
(biochemical identification, determination of Michaelis complex and Suggestion of unique reaction mechanism)
 
 
 
[[GH186]] Escherichia coli endo β-1,2-glucanase (EcOpgG)<cite>Motouchi2023</cite>.
 
 
 
(biochemical identification and determination of Michaelis complex)
 
  
  
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<biblio>
 
<biblio>
Motouchi2023 Motouchi, S., Kobayashi, K., Nakai, H., Nakajima, M. Identification of enzymatic functions of osmo-regulated periplasmic glucan biosynthesis proteins from Escherichia coli reveals a novel glycoside hydrolase family. Commun Biol 2023 Sep 21;6(1):961. https://doi.org/10.1038/s42003-023-05336-6 |PubMed ID:37735577   
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#Motouchi2023 pmid=37735577   
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#Motouchi2024  pmid=38957137
  
 
</biblio>
 
</biblio>

Latest revision as of 15:42, 18 July 2024

I am a Ph.D. candidate at Tokyo University of Science. My research interests concern structure and function of new CAZymes, especially β-1,2-glucan-related enzymes responsible for enabling interactions between organisms. I contributed to the biochemical identification and/or structural determination of:

  • GH186 Escherichia coli endo β-1,2-glucanase (EcOpgD) (biochemical identification, determination of Michaelis complex and Suggestion of unique reaction mechanism) Family first [1].
  • GH186 Escherichia coli endo β-1,2-glucanase (EcOpgG) (biochemical identification and determination of Michaelis complex) [1].
  • GH186 Xanthomonas campestris pv. campestris α-1,6-cyclized β-1,2-glucohexadecaose synthase (XccOpgD) (biochemical identification, determination of Michaelis complex and Suggestion of reaction mechanism) First-identified anomer-inverting transglycosylase [2].




  1. Motouchi S, Kobayashi K, Nakai H, and Nakajima M. (2023). Identification of enzymatic functions of osmo-regulated periplasmic glucan biosynthesis proteins from Escherichia coli reveals a novel glycoside hydrolase family. Commun Biol. 2023;6(1):961. DOI:10.1038/s42003-023-05336-6 | PubMed ID:37735577 [Motouchi2023]
  2. Motouchi S, Komba S, Nakai H, and Nakajima M. (2024). Discovery of Anomer-Inverting Transglycosylase: Cyclic Glucohexadecaose-Producing Enzyme from Xanthomonas, a Phytopathogen. J Am Chem Soc. 2024;146(26):17738-17746. DOI:10.1021/jacs.4c02579 | PubMed ID:38957137 [Motouchi2024]

All Medline abstracts: PubMed