Parallel Computations in the Development of Thermostable Lipase Mutants

M. S. Kondratyev; A. V. Kabanov; A. A. Samchenko; V. M. Komarov; N. N. Khechinashvili

doi:10.1134/S0022476618080292

Parallel Computations in the Development of Thermostable Lipase Mutants

Authors: Kondratyev M.S.¹, Kabanov A.V.¹, Samchenko A.A.¹, Komarov V.M.¹, Khechinashvili N.N.¹
Affiliations:
1. Institute of Cell Biophysics
Issue: Vol 59, No 8 (2018)
Pages: 1974-1979
Section: Article
URL: https://journals.rcsi.science/0022-4766/article/view/161819
DOI: https://doi.org/10.1134/S0022476618080292
ID: 161819

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Abstract

The advanced high performance computing methods are used to study the stability and conformational dynamics of the bacterial enzyme lipase LipA, its mutants, and the close homologous enzyme CLE whose substrate is polylactic acid-based plastics. From the analysis of the GPU molecular dynamics of native lipases and their mutants the amino acid residues whose point substitutions can markedly improve the thermostability of the enzymes under study without deteriorating their activity are determined.