Kyung-Hoon Lee scite author profile

Kyung-Hoon Lee

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Chowan University

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Modulation of human transthyretin stability by the mutations at histidine 88 studied by free energy simulation

Lee

Kuczera

2022

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Human transthyretin (TTR) is a homotetrameric plasma protein associated with a high percentage of β-sheet, which forms amyloid fibrils and accumulates in tissues or extracellular matrix to cause amyloid diseases. Free energy simulations based on allatom molecular dynamics simulations were carried out to analyze the effects of the His88 ! Arg, Phe, and Tyr mutations on the stability of human TTR. The calculated free energy change differences (ΔΔG) caused by the His ! Arg, Phe, and Tyr mutations at position 88 are 6.48 ± 0.45, À9.99 ± 0.54, and 2.66 ± 0.33 kcal/mol, respectively. These calculated free energy change differences between wild type and the mutants are in excellent agreement with prior experimental values. Our simulation results show that the wild type of the TTR is more stable than H88R and H88Y mutants, whereas it is less stable than the H88F mutant. The free energy component analysis shows that the primary contribution to the free energy change difference (ΔΔG) for the His ! Arg mutation arises from electrostatic interaction; the ΔΔG for the His ! Phe mutation is from van der Waals and electrostatic interactions and that for the His ! Tyr mutation from covalent interaction. The simulation results show that the free energy calculation with thermodynamic integration is beneficial for understanding the detailed microscopic mechanism of protein stability. The implications of the results for understanding stabilizing and destabilizing effect of the mutation and the contribution to protein stability are discussed.

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Effect of alanine versus serine at position 88 of human transthyretin mutants on the protein stability

Lee

Kuczera

2023

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Human Transthyretin (TTR) is a homo-tetrameric plasma protein associated with a high percentage of β-sheet forming amyloid fibrils. It accumulates in tissues or extracellular matrices to cause amyloid diseases. Free energy simulations with thermodynamic integration based on all-atom molecular dynamics simulations have been carried out to analyze the effects of the His88 → Ala and Ser mutations on the stability of human TTR. The calculated free energy change differences (ΔΔG) caused by the His88 → Ala and His88 → Ser mutations are −1.84 ± 0.86 and 7.56 ± 0.55 kcal/mol, respectively, which are in excellent agreement with prior reported experimental values. The simulation results show that the H88A mutant is more stable than the wild type, whereas the H88S mutant is less stable than the wild type. The free energy component analysis shows that the contribution to the free energy change difference (ΔΔG) for the His88 → Ala and His88 → Ser mutations mainly arise from electrostatic and van der Waals interactions, respectively. The electrostatic term stabilizes the H88A mutant more than the wild type, but the van der Waals interaction destabilizes the H88S mutant relative to the wild type. Individual residue contributions to the free energy change show neighboring residues exert stabilizing and destabilizing influence on the mutants. The implications of the simulation results for understanding the stabilizing and destabilizing effect and its contribution to protein stability are discussed.

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Free energy simulations to study mutational effect of a conserved residue, Trp24, on stability of human serum retinol-binding protein

Lee

Kuczera

2022

Journal of Biomolecular Structure and Dynamics

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Kyung-Hoon Lee

Modulation of human transthyretin stability by the mutations at histidine 88 studied by free energy simulation

Effect of alanine versus serine at position 88 of human transthyretin mutants on the protein stability

Free energy simulations to study mutational effect of a conserved residue, Trp24, on stability of human serum retinol-binding protein

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