Michele R. Stabile scite author profile

By combining site-directed mutagenesis with chemical modification, we have altered the S1 and S1' pocket specificity of subtilisin Bacillus lentus (SBL) through the incorporation of unnatural amino acid moieties, in the following manner: WT --> Cysmutant + H3CSO2SR --> Cys-SR, where R may be infinitely variable. A paradigm between extent of activity changes and surface exposure of the modified residue has emerged. Modification of M222C, a buried residue in the S1' pocket of SBL, caused dramatic changes in kcat/KM, of an up to 122-fold decrease, while modification of S166C, which is located at the bottom of the S1 pocket and is partially surface exposed, effected more modest activity changes. Introduction of a positive charge at S166C does not alter kcat/KM, whereas the introduction of a negative charge results in lowered activity, possibly due to electrostatic interference with oxyanion stabilization. Activity is virtually unaltered upon modification of S156C, which is located toward the bottom of the S1 pocket and surface exposed and whose side chain is solvated. An unexpected structure-activity relationship was revealed for S166C-SR enzymes in that the pattern of activity changes observed with increasing steric size of R was not monotonic. Molecular modeling analysis was used to analyze this unprecedented structure-activity relationship and revealed that the position of the beta-carbon of Cys166 modulates binding of the P1 residue of the AAPF product inhibitor.

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Altering the specificity of subtilisin B. Lentus by combining site-directed mutagenesis and chemical modification

Berglund¹,

Stabile²,

Gold³

et al. 1996

Bioorganic & Medicinal Chemistry Letters

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Chemoenzymatic synthesis of the morphine skeleton via radical cyclization and a C10C11 closure

Butora

Hudlický

Fearnley

et al. 1996

Tetrahedron Letters

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