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Molecular Modeling: Molecular Mechanics C372 Introduction to Cheminformatics II Kelsey Forsythe.

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Presentation on theme: "Molecular Modeling: Molecular Mechanics C372 Introduction to Cheminformatics II Kelsey Forsythe."— Presentation transcript:

1 Molecular Modeling: Molecular Mechanics C372 Introduction to Cheminformatics II Kelsey Forsythe

2 Review Energy components Energy components Guidelines for use Guidelines for use Pros and Cons Pros and Cons Geometry optimization Geometry optimization

3 Today Modeling inorganic systems Modeling inorganic systems Modeling macromolecules Modeling macromolecules Ligand-receptor interactions Ligand-receptor interactions Beyond Empirical Methods Beyond Empirical Methods Ab Initio Ab Initio Semi-Empirical Semi-Empirical

4 Comparison of Empirical Models Copy of p.443 from Gundertofte article Copy of p.443 from Gundertofte article See also Cramer Table 2.1 See also Cramer Table 2.1

5 Hypervalent Systems SF 6 SF 6 MMFF MMFF r(SF) = 1.633A (EXPT = 1.564A) r(SF) = 1.633A (EXPT = 1.564A) SYBYL SYBYL r(SF) = 1.800A (EXPT = 1.564A) r(SF) = 1.800A (EXPT = 1.564A)

6 One Atom Heavy Hydrides MMFF MMFF r(NH 3 ) = 1.019A (EXPT = 1.012A) r(NH 3 ) = 1.019A (EXPT = 1.012A) SYBYL SYBYL r(NH 3 ) = 1.080A (EXPT = 1.012A) r(NH 3 ) = 1.080A (EXPT = 1.012A) Mean error (bond distances): Mean error (bond distances): SYBYL -.262 SYBYL -.262 MMFF -.026 (Comparable to small basis Hartree-Fock) MMFF -.026 (Comparable to small basis Hartree-Fock) Similar performance for multiple heavy atom hydrides Similar performance for multiple heavy atom hydrides Hehre, W. J., A Guide to Molecular Mechanics and Quantum Chemical Calculations

7 Multiple Heavy Atom Systems ~150 compounds ~150 compounds Benzene, difluromethane, tetrachlorosilane, ozone, magnesium fluoride Benzene, difluromethane, tetrachlorosilane, ozone, magnesium fluoride Mean error (bond distances): Mean error (bond distances): SYBYL -.051 SYBYL -.051 MMFF -.034 MMFF -.034 Ab initio (HF) -.028 Ab initio (HF) -.028

8 Transition Metal Molecules MMFF and SYBYL NOT parameterized MMFF and SYBYL NOT parameterized MMX - some parameterization for inorganics MMX - some parameterization for inorganics UFF - parameters for all elements UFF - parameters for all elements MOMEC MOMEC VALBOND VALBOND

9 Modeling macromolecules Solvent-Solute (i.e. Non-Bonding) interactions very important Solvent-Solute (i.e. Non-Bonding) interactions very important Ligand-Receptor interactions Ligand-Receptor interactions Protein Folding Protein Folding Dreiding Dreiding AMBER (protein structure) AMBER (protein structure) OPLS OPLS Chem-X Chem-X CHARMM (“ “) CHARMM (“ “) YETI (ligand-protein) YETI (ligand-protein) CFF (proteins) CFF (proteins) MMFF (hydrogen-bonding) MMFF (hydrogen-bonding) Tripos/SYBYL Tripos/SYBYL

10 MMFF Parameterized to Ab Initio Parameterized to Ab Initio Non-Bonding Interactions Non-Bonding Interactions Hydrogen bonding Hydrogen bonding Water n-mers Water n-mers Non-polar (vdW) Non-polar (vdW) (H 2 ) 2, (CH 4 ) 2 (H 2 ) 2, (CH 4 ) 2

11 Macromolecular Modeling D-glucose - 11 different conformers D-glucose - 11 different conformers GROMOS, MM3 GROMOS, MM3 1.5-2.1 kcal/mol 1.5-2.1 kcal/mol CHARMM, MMFF CHARMM, MMFF 0.9-1.5 kcal/mol 0.9-1.5 kcal/mol AMBER, Chem-X, OPLS AMBER, Chem-X, OPLS 0.6-0.8 kcal/mol 0.6-0.8 kcal/mol Barrows, S. E. et al, 1998. J. Comput. Chem. 19, 1111.

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