Literature DB >> 18239075

Development of fructosyl amine oxidase specific to fructosyl valine by site-directed mutagenesis.

Seiji Miura1, Stefano Ferri, Wakako Tsugawa, Seungsu Kim, Koji Sode.   

Abstract

Docking models of fructosyl amine oxidase (FAOD) from the marine yeast Pichia N1-1 (N1-1 FAOD) with the substrates fructosyl valine (f-Val) and fructosyl-(epsilon)N-lysine (f-(epsilon)Lys) were produced using three-dimensional protein model as reported previously (Miura et al., 2006, Biotechnol. Lett., 28, 1895-1900). The residues involved in recognition of substrates were proposed, particularly Asn354, which interacts closely with f-(epsilon)Lys, but not with f-Val. Substitution of Asn354 to histidine and lysine simultaneously resulted in an increase in activity of f-val and a decrease in activity of f-(epsilon)Lys and thus, increasing the specificity for f-Val from 13- to 19-fold. In addition to creating two mutant FAODs with great potential for the measurement of glycated hemoglobin, we have provided the first structural model of substrate binding with eukaryotic FAOD, which is expected to contribute to further investigation of FAOD.

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Year:  2008        PMID: 18239075     DOI: 10.1093/protein/gzm047

Source DB:  PubMed          Journal:  Protein Eng Des Sel        ISSN: 1741-0126            Impact factor:   1.650


  8 in total

Review 1.  Review of fructosyl amino acid oxidase engineering research: a glimpse into the future of hemoglobin A1c biosensing.

Authors:  Stefano Ferri; Seungsu Kim; Wakako Tsugawa; Koji Sode
Journal:  J Diabetes Sci Technol       Date:  2009-05-01

2.  Structural basis of the substrate specificity of the FPOD/FAOD family revealed by fructosyl peptide oxidase from Eupenicillium terrenum.

Authors:  Weiqiong Gan; Feng Gao; Keke Xing; Minze Jia; Haiping Liu; Weimin Gong
Journal:  Acta Crystallogr F Struct Biol Commun       Date:  2015-03-20       Impact factor: 1.056

3.  Engineering fructosyl peptide oxidase to improve activity toward the fructosyl hexapeptide standard for HbA1c measurement.

Authors:  Stefano Ferri; Yusuke Miyamoto; Akane Sakaguchi-Mikami; Wakako Tsugawa; Koji Sode
Journal:  Mol Biotechnol       Date:  2013-07       Impact factor: 2.695

4.  In Silico Engineering of Enzyme Access Tunnels.

Authors:  Alfonso Gautieri; Federica Rigoldi; Archimede Torretta; Alberto Redaelli; Emilio Parisini
Journal:  Methods Mol Biol       Date:  2022

5.  Crystal structure of the deglycating enzyme fructosamine oxidase (amadoriase II).

Authors:  François Collard; Jianye Zhang; Ina Nemet; Kaustubha R Qanungo; Vincent M Monnier; Vivien C Yee
Journal:  J Biol Chem       Date:  2008-07-30       Impact factor: 5.157

Review 6.  Computational tools for rational protein engineering of aldolases.

Authors:  Michael Widmann; Jürgen Pleiss; Anne K Samland
Journal:  Comput Struct Biotechnol J       Date:  2012-11-13       Impact factor: 7.271

7.  Thermal stabilization of the deglycating enzyme Amadoriase I by rational design.

Authors:  Federica Rigoldi; Stefano Donini; Francesca Giacomina; Federico Sorana; Alberto Redaelli; Tiziano Bandiera; Emilio Parisini; Alfonso Gautieri
Journal:  Sci Rep       Date:  2018-02-14       Impact factor: 4.379

8.  Creation of haemoglobin A1c direct oxidase from fructosyl peptide oxidase by combined structure-based site specific mutagenesis and random mutagenesis.

Authors:  Noriyuki Ogawa; Takehide Kimura; Fumi Umehara; Yuki Katayama; Go Nagai; Keiko Suzuki; Kazuo Aisaka; Yukie Maruyama; Takafumi Itoh; Wataru Hashimoto; Kousaku Murata; Michio Ichimura
Journal:  Sci Rep       Date:  2019-01-30       Impact factor: 4.379
  8 in total

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