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Effect of the Lys62Ala Mutation on the Thermal Stability of Bst HPr Protein by Molecular Dynamics.

Aranza C Martínez-ZacariasEdgar López-PérezSalomón J Alas-Guardado
Published in: International journal of molecular sciences (2024)
We analyzed the thermal stability of the Bst HPr protein through the site-directed point mutation Lys62 replaced by Ala residue using molecular dynamics simulations at five different temperatures: 298, 333, 362, 400, and 450 K, for periods of 1 μs and in triplicate. The results from the mutant thermophilic Bst HPrm protein were compared with those of the wild-type thermophilic Bst HPr protein and the mesophilic Bs HPr protein. Structural and molecular interaction analyses show that proteins lose stability as temperature increases. Mutant and wild-type proteins behave similarly up to 362 K. However, at 400 K the mutant protein shows greater structural instability, losing more buried hydrogen bonds and exposing more of its non-polar residues to the solvent. Therefore, in this study, we confirmed that the salt bridge network of the Glu3-Lys62-Glu36 triad, made up of the Glu3-Lys62 and Glu36-Lys62 ion pairs, provides thermal stability to the thermophilic Bst HPr protein.
Keyphrases
  • wild type
  • molecular dynamics
  • protein protein
  • molecular dynamics simulations
  • amino acid
  • binding protein
  • small molecule
  • anaerobic digestion
  • ionic liquid
  • molecular docking