Gene/Protein
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Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
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Target Concepts:
Gene/Protein
Disease
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Drug
Enzyme
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Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Lipase from Pseudomonas cepacia (
PCL
) shows good enantioselectivity toward primary alcohols. An empirical rule can predict which enantiomer of a primary alcohol reacts faster, but there is no reliable strategy to increase the enantioselectivity. We used a combination of molecular modeling of lipase-transition state analogue complexes and kinetic measurements to identify the molecular basis of the enantioselectivity toward two primary alcohols:
2-methyl-3-phenyl-1-propanol
, 1, and 2-phenoxy-1-propanol, 2. In hydrolysis of the acetate esters,
PCL
favors the (S)-enantiomer of both substrates (E = 16 and 17, respectively), but, due to changes in priorities of the substituents, the (S)-enantiomers of 1 and 2 have opposite shapes. Computer modeling of transition state analogues bound to
PCL
show that primary alcohols bind to
PCL
differently than secondary alcohols. Modeling and kinetics suggest that the enantioselectivity of
PCL
toward 1 comes from the binding of the methyl group at the stereocenter within a hydrophobic pocket for the fast-reacting enantiomer, but not for the slow-reacting enantiomer. On the other hand, the enantioselectivity toward 2 comes from an extra hydrogen bond between the phenoxy oxygen of the substrate to the phenolic OH of Tyr29. This hydrogen bond may slow release of the (R)-alcohol and thus account for the reversal of enantioselectvity. To decrease the enantioselectivity of
PCL
toward 2-acetate by a factor of 2 to E = 8, we eliminated the hydrogen bond by acetylation of the tyrosyl residues with N-acetylimidazole. To increase the enantioselectivity of
PCL
toward 2-acetate by a factor of 2 to E = 36, we increased the strength of the hydrogen bond by nitration of the tyrosyl residues with tetranitromethane. This is one of the first examples of a rationally designed modification of a lipase to increase enantioselectivity.
...
PMID:Molecular Basis for Enantioselectivity of Lipase from Pseudomonas cepacia toward Primary Alcohols. Modeling, Kinetics, and Chemical Modification of Tyr29 to Increase or Decrease Enantioselectivity. 1167 31
