Thermostabilizing mechanisms of canonical single amino acid substitutions at a GH1 β‐glucosidase probed by multiple MD and computational approaches

分子动力学 化学 溶剂化 氨基酸 分子力学 定向进化 计算化学 生物化学 突变体 溶剂 基因
作者
Rafael E. O. Rocha,Diego Mariano,Tiago Silva Almeida,Leon Sulfierry CorrêaCosta,Pedro Fischer,Lucianna Helene Santos,Ernesto R. Caffarena,Carlos Henrique da Silveira,Leonida M. Lamp,Monica L. Fernández‐Quintero,Klaus R. Liedl,Raquel C. de Melo-Minardi,Leonardo Henrique França de Lima
出处
期刊:Proteins [Wiley]
卷期号:91 (2): 218-236 被引量:2
标识
DOI:10.1002/prot.26424
摘要

β-glucosidases play a pivotal role in second-generation biofuel (2G-biofuel) production. For this application, thermostable enzymes are essential due to the denaturing conditions on the bioreactors. Random amino acid substitutions have originated new thermostable β-glucosidases, but without a clear understanding of their molecular mechanisms. Here, we probe by different molecular dynamics simulation approaches with distinct force fields and submitting the results to various computational analyses, the molecular bases of the thermostabilization of the Paenibacillus polymyxa GH1 β-glucosidase by two-point mutations E96K (TR1) and M416I (TR2). Equilibrium molecular dynamic simulations (eMD) at different temperatures, principal component analysis (PCA), virtual docking, metadynamics (MetaDy), accelerated molecular dynamics (aMD), Poisson-Boltzmann surface analysis, grid inhomogeneous solvation theory and colony method estimation of conformational entropy allow to converge to the idea that the stabilization carried by both substitutions depend on different contributions of three classic mechanisms: (i) electrostatic surface stabilization; (ii) efficient isolation of the hydrophobic core from the solvent, with energetic advantages at the solvation cap; (iii) higher distribution of the protein dynamics at the mobile active site loops than at the protein core, with functional and entropic advantages. Mechanisms i and ii predominate for TR1, while in TR2, mechanism iii is dominant. Loop A integrity and loops A, C, D, and E dynamics play critical roles in such mechanisms. Comparison of the dynamic and topological changes observed between the thermostable mutants and the wildtype protein with amino acid co-evolutive networks and thermostabilizing hotspots from the literature allow inferring that the mechanisms here recovered can be related to the thermostability obtained by different substitutions along the whole family GH1. We hope the results and insights discussed here can be helpful for future rational approaches to the engineering of optimized β-glucosidases for 2G-biofuel production for industry, biotechnology, and science.

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