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. 2024 Nov 15;10(23):e40404. doi: 10.1016/j.heliyon.2024.e40404

Table 7.

The summary of the MM/GBSA analysis performed for the simulated complexes for a 100ns timeframe.

Complex Summary
7L13-compound 19 complex
dG Average: -52.4933
dG Standard Deviation: 32.45
dG Range: -98.7899 to 3.4788
dG(NS) Average: -55.3251
dG(NS) Standard Deviation: 33.99
dG(NS) Range: -101.2030 to 3.4045
7L13-Elobixibat complex
dG Average: -60.7490
dG Standard Deviation: 27.17
dG Range: -88.7709 to 0.4565
dG(NS) Average: -69.4118
dG(NS) Standard Deviation: 31.19
dG(NS) Range: -101.5549 to 0.4619
MMGBSA dG Bind: The binding energy of the receptor and ligand as calculated by
 the Prime Energy, a Molecular Mechanics + Implicit Solvent Energy
 Function (kcals/mol)
 =PrimeEnergy(Optimized Complex)
 - PrimeEnergy(Optimized Free Ligand)
 - PrimeEnergy(Optimized Free Receptor)
MMGBSA dG Bind(NS): A version of dG Bind that does not include contributions
 from receptor or ligand strain. (kcals/mol)
 =PrimeEnergy(Optimized Complex)
 - PrimeEnergy(Ligand Geometry From Optimized Complex)
 - PrimeEnergy(Receptor Geometry From Optimized Complex)
Lig Strain Energy: A prediction of the energetic penalty due to strain between
 the ligand in the complex and the ligand in the free state based on the
 difference in Prime Energy (kcals/mol).
 = PrimeEnergy(Ligand Geometry From Optimized Complex)
 - PrimeEnergy(Optimized Free Ligand)
Rec Strain Energy: A prediction of the energetic penalty due to strain between
 the receptor in the complex and the receptor in the free state based on the difference in Prime Energy (kcals/mol).
 = PrimeEnergy(Receptor Geometry From Optimized Complex)
 - PrimeEnergy(Optimized Free Receptor)