Redesigning and characterizing the substrate specificity and activity of Vibrio fluvialis aminotransferase for the synthesis of imagabalin

Redesigning and characterizing the substrate specificity and activity of Vibrio fluvialis aminotransferase for the synthesis of imagabalin

Several protein engineering approaches were combined to optimize the selectivity and activity of Vibrio fluvialis aminotransferase (Vfat) for the synthesis of (3S,5R)-ethyl 3-amino-5-methyloctanoate; a key intermediate in the synthesis of imagabalin, an advanced candidate for the treatment of genera...

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Veröffentlicht in:Protein Eng. Des. Sel 2013-01, Vol.26 (1), p.25-33
Hauptverfasser: Midelfort, Katarina S., Kumar, Rajesh, Han, Seungil, Karmilowicz, Michael J., McConnell, Kevin, Gehlhaar, Daniel K., Mistry, Anil, Chang, Jeanne S., Anderson, Marie, Villalobos, Alan, Minshull, Jeremy, Govindarajan, Sridhar, Wong, John W.
Format: Artikel
Sprache:eng
Schlagworte:
Amino Acids - metabolism
Anxiety
Caprylates - metabolism
Crystal structure
Enzymes
Kinetics
Liquid chromatography
Models, Molecular
Mutation
Protein Conformation
Protein engineering
Protein Engineering - methods
Sequence Homology, Amino Acid
Substrate Specificity
Transaminases - chemistry
Transaminases - genetics
Transaminases - metabolism
Vibrio - enzymology
Vibrio fluvialis
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Zusammenfassung:Several protein engineering approaches were combined to optimize the selectivity and activity of Vibrio fluvialis aminotransferase (Vfat) for the synthesis of (3S,5R)-ethyl 3-amino-5-methyloctanoate; a key intermediate in the synthesis of imagabalin, an advanced candidate for the treatment of generalized anxiety disorder. Starting from wild-type Vfat, which had extremely low activity catalyzing the desired reaction, we engineered an improved enzyme with a 60-fold increase in initial reaction velocity for transamination of (R)-ethyl 5-methyl 3-oxooctanoate to (3S,5R)-ethyl 3-amino-5-methyloctanoate. To achieve this,
ISSN:1741-0126
1741-0134
DOI:10.1093/protein/gzs065