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BioGPS Descriptors for Rational Engineering of Enzyme Promiscuity and Structure Based Bioinformatic Analysis

Author

Listed:
  • Valerio Ferrario
  • Lydia Siragusa
  • Cynthia Ebert
  • Massimo Baroni
  • Marco Foscato
  • Gabriele Cruciani
  • Lucia Gardossi

Abstract

A new bioinformatic methodology was developed founded on the Unsupervised Pattern Cognition Analysis of GRID-based BioGPS descriptors (Global Positioning System in Biological Space). The procedure relies entirely on three-dimensional structure analysis of enzymes and does not stem from sequence or structure alignment. The BioGPS descriptors account for chemical, geometrical and physical-chemical features of enzymes and are able to describe comprehensively the active site of enzymes in terms of “pre-organized environment” able to stabilize the transition state of a given reaction. The efficiency of this new bioinformatic strategy was demonstrated by the consistent clustering of four different Ser hydrolases classes, which are characterized by the same active site organization but able to catalyze different reactions. The method was validated by considering, as a case study, the engineering of amidase activity into the scaffold of a lipase. The BioGPS tool predicted correctly the properties of lipase variants, as demonstrated by the projection of mutants inside the BioGPS “roadmap”.

Suggested Citation

  • Valerio Ferrario & Lydia Siragusa & Cynthia Ebert & Massimo Baroni & Marco Foscato & Gabriele Cruciani & Lucia Gardossi, 2014. "BioGPS Descriptors for Rational Engineering of Enzyme Promiscuity and Structure Based Bioinformatic Analysis," PLOS ONE, Public Library of Science, vol. 9(10), pages 1-13, October.
    • Handle: RePEc:plo:pone00:0109354
    DOI: 10.1371/journal.pone.0109354
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