Literature DB >> 22267088

Biophysical characterization of mutants of Bacillus subtilis lipase evolved for thermostability: factors contributing to increased activity retention.

Wojciech Augustyniak1, Agnieszka A Brzezinska, Tjaard Pijning, Hans Wienk, Rolf Boelens, Bauke W Dijkstra, Manfred T Reetz.   

Abstract

Previously, Lipase A from Bacillus subtilis was subjected to in vitro directed evolution using iterative saturation mutagenesis, with randomization sites chosen on the basis of the highest B-factors available from the crystal structure of the wild-type (WT) enzyme. This provided mutants that, unlike WT enzyme, retained a large part of their activity after heating above 65 °C and cooling down. Here, we subjected the three best mutants along with the WT enzyme to biophysical and biochemical characterization. Combining thermal inactivation profiles, circular dichroism, X-ray structure analyses and NMR experiments revealed that mutations of surface amino acid residues counteract the tendency of Lipase A to undergo precipitation under thermal stress. Reduced precipitation of the unfolding intermediates rather than increased conformational stability of the evolved mutants seems to be responsible for the activity retention.
Copyright © 2012 The Protein Society.

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Year:  2012        PMID: 22267088      PMCID: PMC3375749          DOI: 10.1002/pro.2031

Source DB:  PubMed          Journal:  Protein Sci        ISSN: 0961-8368            Impact factor:   6.725


  40 in total

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Journal:  Biochim Biophys Acta       Date:  2010-06-25

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Authors:  G van Pouderoyen; T Eggert; K E Jaeger; B W Dijkstra
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4.  Structural Rigidity and Protein Thermostability in Variants of Lipase A from Bacillus subtilis.

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Review 6.  Lipase improvement: goals and strategies.

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Review 7.  The Lid Domain in Lipases: Structural and Functional Determinant of Enzymatic Properties.

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10.  Machine Learning Enables Selection of Epistatic Enzyme Mutants for Stability Against Unfolding and Detrimental Aggregation.

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  10 in total

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