Understanding the Stabilization Mechanism of a Thermostable Mutant of Hygromycin B Phosphotransferase by Protein Sector-Guided Dynamic Analysis.

Journal

ACS omega

ISSN: 2470-1343

Titre abrégé: ACS Omega

Pays: United States

ID NLM: 101691658

Informations de publication

Date de publication:
25 Jul 2023

Historique:

received: 18 01 2023

accepted: 12 06 2023

medline: 31 7 2023

pubmed: 31 7 2023

entrez: 31 7 2023

Statut: epublish

Résumé

Point mutations can exert beneficial effects on proteins, including stabilization. The stabilizing effects of mutations are typically attributed to changes in free energy and residue interactions. However, these explanations lack detail and physical insights, which hinder the mechanistic study of protein stabilization and prevent accurate computational prediction of stabilizing mutations. Here, we investigate the physical mechanism underlying the enhanced thermostability of a Hygromycin B phosphotransferase mutant, Hph5. We find that the unpredictable mutation A118V induces rotation of F199, allowing it to establish an aromatic-aromatic interaction with W235. In contrast, the predictable mutation T246A acts through static hydrophobic interactions within the protein core. These discoveries were accelerated by a residue-coevolution-based theory, which links mutational effects to stability-associated local structures, providing valuable guidance for mechanistic exploration. The established workflow will benefit the development of accurate stability prediction programs and can be used to mine a protein stability database for undiscovered physical mechanisms.

Identifiants

DOI: 10.1021/acsomega.3c00373 PMID: 37521677 PMC: PMC10372938

pubmed: 37521677

doi: 10.1021/acsomega.3c00373

pmc: PMC10372938

doi:

Types de publication

Journal Article

Langues

eng

Pagination

25739-25748

Informations de copyright

Déclaration de conflit d'intérêts

The authors declare no competing financial interest.

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