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SpyTag/SpyCatcher Cyclization Confers Resilience to Boiling on a Mesophilic Enzyme

Authors

  • Funding was provided by BBSRC (C.S.), Sekisui Diagnostics (C.S., S.P.B.), the Clarendon Fund (J.O.F.), New College Oxford (J.O.F.), Worcester College Oxford (M.H.), and Oxford University Department of Biochemistry (M.H.). We thank Nick Major of Sekisui Diagnostics for helpful advice and the Molecular Biophysics Facility at Oxford University Department of Biochemistry.

Abstract

SpyTag is a peptide that spontaneously forms an amide bond with its protein partner SpyCatcher. SpyTag was fused at the N terminus of β-lactamase and SpyCatcher at the C terminus so that the partners could react to lock together the termini of the enzyme. The wild-type enzyme aggregates above 37 °C, with irreversible loss of activity. Cyclized β-lactamase was soluble even after heating at 100 °C; after cooling, the catalytic activity was restored. SpyTag/SpyCatcher cyclization led to a much larger increase in stability than that achieved through point mutation or alternative approaches to cyclization. Cyclized dihydrofolate reductase was similarly resilient. Analyzing unfolding through calorimetry indicated that cyclization did not increase the unfolding temperature but rather facilitated refolding after thermal stress. SpyTag/SpyCatcher sandwiching represents a simple and efficient route to enzyme cyclization, with potential to greatly enhance the robustness of biocatalysts.

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DOI

10.1002/anie.201402519

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© 2014 WILEY-VCH Verlag GmbH & Co. KGaA, Weinheim

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Keywords

  • enzymes;
  • peptides;
  • protein engineering;
  • protein modifications;
  • protein stability

Publication History

  • Issue online:
  • Version of record online:
  • Manuscript Received:

Funded by

  • BBSRC
  • Sekisui Diagnostics
  • Clarendon Fund
  • New College Oxford
  • Worcester College Oxford
  • Oxford University Department of Biochemistry

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