The origin of pressure resistance in deep-sea lactate dehydrogenase

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Description:
High hydrostatic pressure has a dramatic effect on biochemical systems, as exposure to high pressure can result in structural perturbations ranging from dissociation of protein complexes to complete denaturation. The deep ocean presents an interesting paradox since it is teeming with life despite the high-pressure environment. This is due to evolutionary adaptations in deep-sea organisms, such as amino acid substitutions in their proteins, which aid in resisting the denaturing effects of pressure. However, the physico-chemical mechanism by which these substitutions can induce pressure resistance remains unknown. Here, we use molecular dynamics simulations to study pressure-adapted lactate dehydrogenase from the deep-sea abyssal grenadier (C. armatus), in comparison with that of the shallow-water Atlantic cod (G. morhua). Alchemical thermodynamic integration and the Archimedean Displacement Method were used to determine whether pressure resistance is due to a thermodynamic stabilization of the native state of the protein or to an increase in the volume of the denatured state. We report that the amino acid substitutions destabilize the folded protein, but pressure resistance is achieved through an increase in compressibility for the pressure-adapted protein. This dataset contains input files and run scripts for the alchemical free energy calculations and the volume calculations. See README.txt files within each archive for specific details on how to run and analyze the calculations.
Author(s):
Wiebe, Heather

Wiebe, Heather

Vancouver Island University
0000-0002-4301-1960
Contributor(s):
Wiebe, Heather and McFarland, Dana
Source Repository:
Vancouver Island University Dataverse
Publisher(s):
Borealis
Access:
Public
URL:
https://doi.org/10.5683/SP3/LWYSYB
Publication date:
2024-07-16
Subjects:
Chemistry
Keywords:
Biochemistry, Government of Canada Core Subject Thesaurus, Molecular modelling, Molecules--Models, Molecules--Models--Computer simulation, High pressure adaptation, Hydrostatic pressure, Hydrostatic pressure--Physiological effect, Alchemical free energy, and Partial molar volume
Identifier:
https://doi.org/10.5683/SP3/LWYSYB

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Citation

APA Citation:
Wiebe, H. (2024). The origin of pressure resistance in deep-sea lactate dehydrogenase [Data set]. Vancouver Island University Dataverse. https://doi.org/10.5683/SP3/LWYSYB
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