Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis

Substrate specificity of microbial transglutaminase as revealed by three-dimensional docking simulation and mutagenesis

Transglutaminases (TGases) are used in fields such as food and pharmaceuticals. Unlike other TGases, microbial transglutaminase (MTG) activity is Ca2+-independent, broadening its application. Here, a three-dimensional docking model of MTG binding to a peptide substrate, CBZ-Gln-Gly, was simulated. T...

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Veröffentlicht in:Protein engineering, design and selection design and selection, 2009-12, Vol.22 (12), p.747-752
Hauptverfasser: Tagami, Uno, Shimba, Nobuhisa, Nakamura, Mina, Yokoyama, Kei-ichi, Suzuki, Ei-ichiro, Hirokawa, Takatsugu
Format: Artikel
Sprache:eng
Schlagworte:
Models, Molecular
molecular dynamics
Molecular Dynamics Simulation
Mutagenesis, Site-Directed
Original articles
site-directed mutagenesis
substrate docking
Substrate Specificity
Transaminases - chemistry
Transaminases - genetics
Transaminases - metabolism
transglutaminase
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Zusammenfassung:Transglutaminases (TGases) are used in fields such as food and pharmaceuticals. Unlike other TGases, microbial transglutaminase (MTG) activity is Ca2+-independent, broadening its application. Here, a three-dimensional docking model of MTG binding to a peptide substrate, CBZ-Gln-Gly, was simulated. The data reveal CBZ-Gln-Gly to be stretched along the MTG active site cleft with hydrophobic and/or aromatic residues interacting directly with the substrate. Moreover, an oxyanion binding site for TGase activity may be constructed from the amide groups of Cys64 and/or Val65. Alanine mutagenesis verified the simulated binding region and indicated that large molecules can be widely recognized on the MTG cleft.
ISSN:1741-0126
1741-0134
DOI:10.1093/protein/gzp061