S. J. Collier scite author profile

Natural enzymes have evolved to perform their cellular functions under complex selective pressures, which often require their catalytic activities to be regulated by other proteins. We contrasted a natural enzyme, LovD, which acts on a protein-bound (LovF) acyl substrate, with a laboratory-generated variant that was transformed by directed evolution to accept instead a small free acyl thioester, and no longer requires the acyl carrier protein. The resulting 29-mutant variant is 1000-fold more efficient in the synthesis of the drug simvastatin than the wild-type LovD. This is the first non-patent report of the enzyme currently used for the manufacture of simvastatin, as well as the intermediate evolved variants. Crystal structures and microsecond molecular dynamics simulations revealed the mechanism by which the laboratory-generated mutations free LovD from dependence on protein-protein interactions. Mutations dramatically altered conformational dynamics of the catalytic residues, obviating the need for allosteric modulation by the acyl carrier LovF.

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On the development of new biocatalytic processes for practical pharmaceutical synthesis

Huisman

Collier²

2013

Current Opinion in Chemical Biology

180

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Baeyer–Villiger Monooxygenase-Mediated Synthesis of Esomeprazole As an Alternative for Kagan Sulfoxidation

Bong¹,

Song²,

Nazor

et al. 2018

J. Org. Chem.

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A wild-type Baeyer-Villiger monooxygenase was engineered to overcome numerous liabilities in order to mediate a commercial oxidation of pyrmetazole to esomeprazole, using air as the terminal oxidant in an almost exclusively aqueous reaction matrix. The developed enzyme and process compares favorably to the incumbent Kagan inspired chemocatalytic oxidation, as esomeprazole was isolated in 87% yield, in >99% purity, with an enantiomeric excess of >99%.

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Development of a Practical, Biocatalytic Reduction for the Manufacture of (S)-Licarbazepine Using an Evolved Ketoreductase

Modukuru

Sukumaran

Collier

et al. 2014

Org. Process Res. Dev.

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Synthesis of Vibegron Enabled by a Ketoreductase Rationally Designed for High pH Dynamic Kinetic Reduction

Kosjek

Cabirol

et al. 2018

Angew Chem Int Ed

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S. J. Collier

The role of distant mutations and allosteric regulation on LovD active site dynamics

On the development of new biocatalytic processes for practical pharmaceutical synthesis

Baeyer–Villiger Monooxygenase-Mediated Synthesis of Esomeprazole As an Alternative for Kagan Sulfoxidation

Development of a Practical, Biocatalytic Reduction for the Manufacture of (S)-Licarbazepine Using an Evolved Ketoreductase

Synthesis of Vibegron Enabled by a Ketoreductase Rationally Designed for High pH Dynamic Kinetic Reduction

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