2020
DOI: 10.1038/s41598-020-77072-4
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Statistics for the analysis of molecular dynamics simulations: providing P values for agonist-dependent GPCR activation

Abstract: Molecular dynamics (MD) is the common computational technique for assessing efficacy of GPCR-bound ligands. Agonist efficacy measures the capability of the ligand-bound receptor of reaching the active state in comparison with the free receptor. In this respect, agonists, neutral antagonists and inverse agonists can be considered. A collection of MD simulations of both the ligand-bound and the free receptor are needed to provide reliable conclusions. Variability in the trajectories needs quantification and prop… Show more

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Cited by 9 publications
(9 citation statements)
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“…The question arises which is the proper reference state for the system. Both the apo receptor and an antagonist-bound receptor may, in principle, be suitable for this purpose. We chose the latter condition because of the high stability of an antagonist-bound inactive receptor state, as well as the potential to deactivate an active receptor state to the inactive.…”
Section: Discussionmentioning
confidence: 99%
“…The question arises which is the proper reference state for the system. Both the apo receptor and an antagonist-bound receptor may, in principle, be suitable for this purpose. We chose the latter condition because of the high stability of an antagonist-bound inactive receptor state, as well as the potential to deactivate an active receptor state to the inactive.…”
Section: Discussionmentioning
confidence: 99%
“…The intensification of an enzyme-catalyzed reaction can be obtained by tuning a large number of parameters: feeding substrate at the optimal concentration, removal of product if the reaction is reversible or if product inhibition occurs, addition of co-solvents to increase substrate solubility and to prevent aggregation of the enzyme, using additives to improve thermal and solvent stability of the enzyme, increasing the temperature to improve catalytic activity, and enzyme engineering for improving activity, selectivity, and stability of the enzyme. MD simulation studies can support process design and optimization by exploring a physically meaningful subset of parameter space and by modeling the sensitivity of enzyme catalysis to reaction conditions. For diluted systems, where substrate binding is dominated by the interaction between a single substrate molecule and the protein, free energy calculations by MD simulations and enhanced sampling techniques such as umbrella sampling methods provide reliable free energy profiles . The results can be transferred to finite bulk concentrations in the absence of any interference with the reaction mechanism. , However, at high substrate concentration, molecular crowding and substrate-induced conformational changes of the protein are expected, and substrate-interacting patches on the protein surface become saturated.…”
Section: Discussionmentioning
confidence: 99%
“…This may be due mainly to the large sampling of data resulting from molecular dynamics, which tends to make statistically significant even very small variations. A similar approach is found in the literature that used ANOVA to study the impacts on the activation of the GPCR protein (Bruzzese, Dalton, & Giraldo, 2020). For this reason, we used the Student's t-test to confirm whether the differences in the conformational fluctuations of the P.2 strain are really significant.…”
Section: Impact Of P2 Through MD Analysismentioning
confidence: 99%
“…This may be due mainly to the low sampling of data resulting from molecular dynamics, which tends to make statistically significant even very small variations. Despite of all, a statistical approach is found in the literature that used ANOVA to study the impacts on the activation of the GPCR protein (Bruzzese, Dalton, & Giraldo, 2020). It should be noted that the tests of statistical significance only make sense when running simulations at a time adequate to the studied problem.…”
Section: Impact Of P1/p2 Through MD Analysismentioning
confidence: 99%