Title : Switching from an esterase to a hydroxynitrile lyase mechanism requires only two amino acid substitutions - Padhi_2010_Chem.Biol_17_863 |
Author(s) : Padhi SK , Fujii R , Legatt GA , Fossum SL , Berchtold R , Kazlauskas RJ |
Ref : Chemical Biology , 17 :863 , 2010 |
Abstract :
The alpha/beta hydrolase superfamily contains mainly esterases, which catalyze hydrolysis, but also includes hydroxynitrile lyases, which catalyze addition of cyanide to aldehydes, a carbon-carbon bond formation. Here, we convert a plant esterase, SABP2, into a hydroxynitrile lyase using just two amino acid substitutions. Variant SABP2-G12T-M239K lost the ability to catalyze ester hydrolysis (<0.9 mU/mg) and gained the ability to catalyze the release of cyanide from mandelonitrile (20 mU/mg, k(cat)/K(M) = 70 min(-1)M(-1)). This variant also catalyzed the reverse reaction, formation of mandelonitrile with low enantioselectivity: 20% ee (S), E = 1.5. The specificity constant for the lysis of mandelontrile is 13,000-fold faster than the uncatalyzed reaction and only 1300-fold less efficient (k(cat/)K(M)) than hydroxynitrile lyase from rubber tree. |
PubMedSearch : Padhi_2010_Chem.Biol_17_863 |
PubMedID: 20797615 |
Gene_locus related to this paper: hevbr-hnl , nicta-SABP2 |
Gene_locus | hevbr-hnl nicta-SABP2 |
Family | Hydroxynitrile_lyase |
Padhi SK, Fujii R, Legatt GA, Fossum SL, Berchtold R, Kazlauskas RJ (2010)
Switching from an esterase to a hydroxynitrile lyase mechanism requires only two amino acid substitutions
Chemical Biology
17 :863
Padhi SK, Fujii R, Legatt GA, Fossum SL, Berchtold R, Kazlauskas RJ (2010)
Chemical Biology
17 :863