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PDBsum entry 1r4z
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References listed in PDB file
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Key reference
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Title
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Directed evolution of bacillus subtilis lipase a by use of enantiomeric phosphonate inhibitors: crystal structures and phage display selection.
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Authors
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M.J.Dröge,
Y.L.Boersma,
G.Van pouderoyen,
T.E.Vrenken,
C.J.Rüggeberg,
M.T.Reetz,
B.W.Dijkstra,
W.J.Quax.
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Ref.
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Chembiochem, 2006,
7,
149-157.
[DOI no: ]
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PubMed id
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Abstract
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Phage display can be used as a protein-engineering tool for the selection of
proteins with desirable binding properties from a library of mutants. Here we
describe the application of this method for the directed evolution of Bacillus
subtilis lipase A, an enzyme that has important properties for the preparation
of the pharmaceutically relevant chiral compound
1,2-O-isopropylidene-sn-glycerol (IPG). PCR mutagenesis with spiked
oligonucleotides was employed for saturation mutagenesis of a stretch of amino
acids near the active site. After expression of these mutants on bacteriophages,
dual selection with (S)-(+)- and (R)-(-)-IPG stereoisomers covalently coupled to
enantiomeric phosphonate suicide inhibitors (SIRAN Sc and Rc inhibitors,
respectively) was used for the isolation of variants with inverted
enantioselectivity. The mutants were further characterised by determination of
their Michaelis-Menten parameters. The 3D structures of the Sc and Rc
inhibitor-lipase complexes were determined and provided structural insight into
the mechanism of enantioselectivity of the enzyme. In conclusion, we have used
phage display as a fast and reproducible method for the selection of Bacillus
lipase A mutant enzymes with inverted enantioselectivity.
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