Literature DB >> 25849495

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

Weiqiong Gan1, Feng Gao1, Keke Xing2, Minze Jia1, Haiping Liu2, Weimin Gong1.   

Abstract

The FAOD/FPOD family of proteins has the potential to be useful for the longterm detection of blood glucose levels in diabetes patients. A bottleneck for this application is to find or engineer a FAOD/FPOD family enzyme that is specifically active towards α-fructosyl peptides but is inactive towards other types of glycated peptides. Here, the crystal structure of fructosyl peptide oxidase from Eupenicillium terrenum (EtFPOX) is reported at 1.9 Å resolution. In contrast to the previously reported structure of amadoriase II, EtFPOX has an open substrate entrance to accommodate the large peptide substrate. The functions of residues critical for substrate selection are discussed based on structure comparison and sequence alignment. This study reveals the first structural details of group I FPODs that prefer α-fructosyl substrates and could provide significant useful information for uncovering the mechanism of substrate specificity of FAOD/FPODs and guidance towards future enzyme engineering for diagnostic purposes.

Entities:  

Keywords:  Eupenicillium terrenum; FAOD/FPOD family; fructosyl peptide oxidase

Mesh:

Substances:

Year:  2015        PMID: 25849495      PMCID: PMC4388169          DOI: 10.1107/S2053230X15003921

Source DB:  PubMed          Journal:  Acta Crystallogr F Struct Biol Commun        ISSN: 2053-230X            Impact factor:   1.056


  33 in total

1.  Cloning of amadoriase I isoenzyme from Aspergillus sp.: evidence of FAD covalently linked to Cys342.

Authors:  X Wu; M Takahashi; S G Chen; V M Monnier
Journal:  Biochemistry       Date:  2000-02-15       Impact factor: 3.162

2.  Molecular cloning and expression of novel fructosyl peptide oxidases and their application for the measurement of glycated protein.

Authors:  Kozo Hirokawa; Keiko Gomi; Naoki Kajiyama
Journal:  Biochem Biophys Res Commun       Date:  2003-11-07       Impact factor: 3.575

3.  Monomeric sarcosine oxidase: role of histidine 269 in catalysis.

Authors:  Gouhua Zhao; Hui Song; Zhi-Wei Chen; F Scott Mathews; Marilyn Schuman Jorns
Journal:  Biochemistry       Date:  2002-08-06       Impact factor: 3.162

4.  Candidate reference methods for hemoglobin A1c based on peptide mapping.

Authors:  U Kobold; J O Jeppsson; T Dülffer; A Finke; W Hoelzel; K Miedema
Journal:  Clin Chem       Date:  1997-10       Impact factor: 8.327

5.  Active site analysis of fructosyl amine oxidase using homology modeling and site-directed mutagenesis.

Authors:  Seiji Miura; Stefano Ferri; Wakako Tsugawa; Seungsu Kim; Koji Sode
Journal:  Biotechnol Lett       Date:  2006-10-17       Impact factor: 2.461

6.  Cloning and expression of fructosyl-amine oxidase from marine yeast Pichia species N1-1.

Authors:  Stefano Ferri; Seiji Miura; Akane Sakaguchi; Fumimasa Ishimura; Wakako Tsugawa; Koji Sode
Journal:  Mar Biotechnol (NY)       Date:  2004 Nov-Dec       Impact factor: 3.619

7.  Motif-based search for a novel fructosyl peptide oxidase from genome databases.

Authors:  Seungsu Kim; Stefano Ferri; Wakako Tsugawa; Kazushige Mori; Koji Sode
Journal:  Biotechnol Bioeng       Date:  2010-06-15       Impact factor: 4.530

8.  Primary structures of fungal fructosyl amino acid oxidases and their application to the measurement of glycated proteins.

Authors:  N Yoshida; Y Sakai; A Isogai; H Fukuya; M Yagi; Y Tani; N Kato
Journal:  Eur J Biochem       Date:  1996-12-15

9.  Features and development of Coot.

Authors:  P Emsley; B Lohkamp; W G Scott; K Cowtan
Journal:  Acta Crystallogr D Biol Crystallogr       Date:  2010-03-24

10.  Phaser crystallographic software.

Authors:  Airlie J McCoy; Ralf W Grosse-Kunstleve; Paul D Adams; Martyn D Winn; Laurent C Storoni; Randy J Read
Journal:  J Appl Crystallogr       Date:  2007-07-13       Impact factor: 3.304
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  5 in total

1.  In Silico Engineering of Enzyme Access Tunnels.

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

2.  X-ray structures of fructosyl peptide oxidases revealing residues responsible for gating oxygen access in the oxidative half reaction.

Authors:  Tomohisa Shimasaki; Hiromi Yoshida; Shigehiro Kamitori; Koji Sode
Journal:  Sci Rep       Date:  2017-06-05       Impact factor: 4.379

3.  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

4.  Oxidative cyclization of N-methyl-dopa by a fungal flavoenzyme of the amine oxidase family.

Authors:  Majd Lahham; Tea Pavkov-Keller; Michael Fuchs; Johannes Niederhauser; Gabriel Chalhoub; Bastian Daniel; Wolfgang Kroutil; Karl Gruber; Peter Macheroux
Journal:  J Biol Chem       Date:  2018-09-07       Impact factor: 5.157

5.  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
  5 in total

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