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Literature DB >> 9634803

Directed evolution of a subtilisin with calcium-independent stability.

S L Strausberg¹, P A Alexander, D T Gallagher, G L Gilliland, B L Barnett, P N Bryan.

Abstract

Extracellular proteases of the subtilisin-class depend upon calcium for stability. Calcium binding stabilizes these proteins in natural extracellular environments, but is an Achilles' heel in industrial environments which contain high concentrations of metal chelators. Here we direct the evolution of calcium-independent stability in subtilisin BPN'. By deleting the calcium binding loop from subtilisin, we initially destabilize the protein but create the potential to use new structural solutions for stabilization. Analysis of the structure and stability of the loop-deleted prototype followed by directed mutagenesis and selection for increased stability resulted in a subtilisin mutant with native-like proteolytic activity but 1000-times greater stability in strongly chelating conditions.

Entities: Chemical

Mesh：

Substances：
Subtilisins
Calcium

Year: 1995 PMID： 9634803 DOI： 10.1038/nbt0795-669

Source DB: PubMed Journal: Biotechnology (N Y) ISSN： 0733-222X

Keyword Cloud
Cited

17 in total

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6. "Fluctuograms" reveal the intermittent intra-protein communication in subtilisin Carlsberg and correlate mechanical coupling with co-evolution.

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Review 8. Molecular and biotechnological aspects of microbial proteases.

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9. Engineering and directed evolution of a Ca2+ binding site A-deficient AprE mutant reveal an essential contribution of the loop Leu75-Leu82 to enzyme activity.

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10. Structure of a switchable subtilisin complexed with a substrate and with the activator azide.

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