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·Ö×ÓÁ¦³¡·¢Õ¹µÄÐÂÇ÷ÊÆ ¼ªÇà ÑîСÕ𠻯ѧͨ±¨,2005Äê68¾í2ÆÚ -------------------------------- 1968 CFF [10] 1973 MM1 [11] 1977 MM2 &MMP2 [12] 1983 AMBER [13] 1983 CHARMM [14] ¡¢[15 ] 1989 MM3 [17] 1989 DREIDING [23] 1990 SHAPE [19] 1992 UFF [24] 1996 MMFF [20] 1996 OPLS [21] 1996 MM4 [18] 1998 COMPASS [25] 2003 DFF [30] -------------- [10 ] ¡¡A Lifson , S Warshel . J . Chem. Phys. ,1968 ,49 :5116¡«5229. [11 ] ¡¡N L Allinger , M Thomas Tribble , M A Miller et al . J . Am. Chem. Soc. , 1971 , 93 : 1637¡«1648. [12 ] ¡¡(a) N L Allinger , J . Am. Chem. Soc. , 1977 ,99 :3279. ¡¡¡¡(b) L S Bartell . J . Chem. Phys. , 1960 ,32 :827¡«831. [13 ] ¡¡S J Weiner , P A Kollman , D A Case. J . Am. Chem. Soc. ,1984 ,106 :765¡«784. [14 ] ¡¡B R Brooks , R E Bruccoleri , B D Olafson et al . J . Comput . Chem. , 1983 ,4 : 187¡«217. [15 ] ¡¡B R Brooks , A D Mackerell . The Encyclopedia of Computational Chemistry , 1 :271¡«277. [16 ] ¡¡P Hobza , P M Kabelac , J Sponer et al . J . Comp. Chem. , 18 :1136¡«1150. [17 ] ¡¡N L Allinger , Y H Yuh , J H Lii . J . Am. Chem. Soc. ,1989 ,111 :8551¡«8566. [18 ] ¡¡N L Allinger , K Chen , J H Lii . J . Comput . Chem. ,1996 ,17 : 730¡«746. [19 ] ¡¡V S Allured , C M Kelly , C R Landis. J . Am. Chem. Soc. ,1991 ,113 :1¡«12. [20 ] ¡¡T A Halgren. J . Comp. Chem. , 17 :520¡«522. [21 ] ¡¡WL Jorgensen , D S Maxwell , J Tirado-Rives. J . Am. Chem. Soc. ,1996 , 118 : 11225¡«11236. [22 ] ¡¡N L Allinger , K Chen , J H Lii . J . Comput . Chem. , 1996 ,17 :730¡«746. [23 ] ¡¡S L Mayo , B D Olafson , WA Goddard et al . J . Phys. Chem. , 1990 ,94 :8897¡«8909. [24 ] ¡¡A K Rappe , C J Casewit , K S Colwell et al . J . Am. Chem. Soc. , 1992 ,114 :10024¡«10035. [25 ] ¡¡H Sun. J . Phys. Chem. B , 1998 ,102 :7338¡«7364. [26 ] ¡¡C J Casewit , A K Rappii . J . Am. Chem. Soc. , 1992 ,114 :10035¡«10046. [27 ] ¡¡H Sun. Macromolecules , 1995 ,28 :701¡«712. [28 ] ¡¡H Sun. J . Phys. Chem. , 1998 ,102 :7338¡«7364. [29 ] ¡¡F Sato , S Hojo. J . Phys. Chem. ,2003 ,107 :248¡«257. [30 ] ¡¡Introduction of DFF Z 2002 Aeon Technology Inc. [31 ] ¡¡I Dostrovsky. J . Chem. Soc. , 1946 ,173 :1¡«24. [32 ] ¡¡L H Westhermer. J . Chem. Phys , 1947 ,15 :252¡«260. [33 ] ¡¡L H Westhermer. J . Am. Chem. Soc. ,1950 ,72 :19¡«28. [34 ] ¡¡E B Wilson , J C Decius , P C Cross. Molecular Vibrations , McGraw-Hill ,Newyork , 1955. [35 ] ¡¡B H Westhermer , M S Newman , Ed. , Wiley , New York , 1956. [36 ] ¡¡J B Hendrickson. J . Am. Chem. Soc. , 1961 ,83 :4537¡«4547. |
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Molecular Mechanics and Force Field References -------------------------------------------------------------------------------- AMBER, Assisted Model Building and Energy Refinement AMBER/OPLS, The AMBER force field with Jorgensen's OPLS parameters CHARMM, Chemistry at HARvard Macromolecular Mechanics DISCOVER, force fields of the Insight/Discover package ECEPP/2, a pairwise potential for proteins and peptides GROMOS, GROningen MOlecular Simulation package MM2, the class 1 Allinger molecular mechanics program MM3, the class 2 Allinger molecular mechanics program MM4, the class 3 Allinger molecular mechanics program MMFF94, the Merck Molecular Force Field Tripos, the force field of the Sybyl molecular modeling program Comparisons and Evaluations of Force Fields -------------------------------------------------------------------------------- AMBER: Cornell, W. D., Cieplak, P., Bayly, C. I., Gould, I. R., Merz, K. M. Jr., Ferguson, D. M. Spellmeyer, D. C., Fox, T., Caldwell, J. W., and Kollman, P. A. (1995) A second generation force field for the simulation of proteins, nucleic acids and organic molecules, J. Am. Chem. Soc. 117, 5179-5197. Pearlman, D. A., Case, D. A., Caldwell, J. C., Seibel, G. L., Singh, U. C., Weiner, P., & Kollman, P. A., (1991) AMBER 4.0, University of California, San Francisco. Weiner, P. K., & Kollman, P. A., (1981) AMBER: Assisted Model Building with Energy Refinement. A General Program for Modeling Molecules and Their Interactions, J. Comp. Chem. 2, 287-303. Weiner, S.J., Kollman, P.A., Case, D.A., Singh, U.C., Ghio, C., Alagona, G., Profeta, S., Jr., Weiner, P.K. (1984) A new force field for molecular mechanical simulation of nucleic acids and proteins. J. Am. Chem. Soc. 106, 765-784. Weiner, S. J., Kollman, P. A., Nguyen, D. T., and Case, D. A., (1986) "An All Atom Force Field for Simulations of Proteins and Nucleic Acids," J. Comp. Chem. 7, 230-252. AMBER/OPLS: Damm, W., A. Frontera, J. Tirado-Rives and W. L. Jorgensen (1997) "OPLS All-Atom Force Field for Carbohydrates," J. Comp. Chem. 18, 1955-1970. Jorgensen, W. L.; Maxwell, D. S. and Tirado-Rives, J. (1996) "Development and Testing of the OPLS All-Atom Force Field on Conformational Energetics and Properties of Organic Liquids" J. Am. Chem. Soc., 118, 11225-11236. Jorgensen, W. L., & Tirado-Rives, J.,(1988) The OPLS Potential Functions for Proteins. Energy Minimization for Crystals of Cyclic Peptides and Crambin, J. Am. Chem. Soc. 110, 1657-1666. Kaminski, G., Duffy, E. M. Matsui, T., and Jorgensen, W. L. (1994) J. Phys. Chem. 98, 13077-13082. CHARMM: Brooks, B.R., Bruccoleri, R.E., Olafson, B.D., States, D.J., Swaminathan, S., Karplus, M. (1983) CHARMM: A program for macromolecular energy, minmimization, and dynamics calculations. J. Comp. Chem. 4, 187-217. Feller et al.,(1997) Molecular Dynamics Simulation of Unsaturated Lipids at Low Hydration: Parameterization and Comparison with Diffraction Studies. Biophys. J. 73, 2269-2279 MacKerell, A D Bashford, D; Bellott, M; Dunbrack, R L; Eva seck, J D; Field, M J; Fischer, S; Gao, J; Guo, H; Ha, S; JosephMcCarthy, D; Kuc nir, L; Kuczera, K; Lau, F T K; Mattos, C; Michnick, S; Ngo, T; Nguyen, D T; Pro hom, B; Reiher, W E; Roux, B; Schlenkrich, M; Smith, J C; Stote, R; Straub, J; W tanabe, M; WiorkiewiczKuczera, J; Yin, D; Karplus, M (1998) All-atom empirical potential for molecular modeling and dynamics studies of proteins. J. Phys. Chem., B 102, 3586-3617 Mackerell A D Wiorkiewiczkuczera J; Karplus, M (1995) An all-atom empirical energy function for the simulation of nucleic acids. J. Amer. Chem. Soc.117, 11946-11975 Momany, F. A., & Rone, R., (1992) Validation of the General Purpose QUANTA 3.2/CHARMm Force Field, J. Comp. Chem. 13, 888-900. Pavelites, J. J., J. Gao, P.A. Bash and A. D. Mackerell, Jr. (1997) "A Molecular Mechanics Force Field for NAD+, NADH, and the Pyrophosphate Groups of Nucleotides," J. Comp. Chem. 18, 221-239. Schlenkrich et al. (1996), Empirical Potential Energy Function for Phospholipids: Criteria for Parameter Optimization and Applications in "Biological Membranes: A Molecular Perspective from Computation and Experiment," K.M. Merz and B. Roux, Eds. Birkhauser, Boston, pp 31-81, 1996 Discover: cvff- Dauber-Osguthorpe, P.; Roberts, V. A.; Osguthorpe, D. J.; Wolff, J.; Genest, M.; Hagler, A. T. (1988) "Structure and energetics of ligand binding to proteins: E. coli dihydrofolate reductase- trimethoprim, a drug-receptor system", Proteins: Structure, Function and Genetics, 4, 31-47. cff- Hagler, A. T.; Ewig, C. S. "On the use of quantum energy surfaces in the derivation of molecular force fields", Comp. Phys. Comm., 84, 131-155 (1994). Hwang, M.-J.; Stockfisch, T. P.; Hagler, A. T. "Derivation of Class II force fields. 2. Derivation and characterization of a Class II force field, CFF93, for the alkyl functional group and alkane molecules", J. Amer. Chem. Soc., 116, 2515-2525 (1994). Maple, J. R.; Hwang, M.-J.; Stockfisch, T. P.; Dinur, U.; Waldman, M.; Ewig, C. S; Hagler, A. T. "Derivation of Class II force fields. 1. Methodology and quantum force field for the alkyl functional group and alkane molecules", J. Comput. Chem., 15, 162-182 (1994a). Maple, J. R.; Hwang, M.-J.; Stockfisch, T. P.; Hagler, A. T. "Derivation of Class II force fields. 3. Characterization of a quantum force field for the alkanes", Israel J. Chem., 34, 195 -231 (1994b). ECEPP/2: Momany, F. A., McGuire, R. F., Burgess, A. W., & Scheraga, H. A., (1975) Energy Parameters in Polypeptides VII, Geometric Parameters, Partial Charges, Non-bonded Interactions, Hydrogen Bond Interactions and Intrensic Torsional Potentials for Naturally Ocurring Amino Acids, J. Phys. Chem. 79, 2361-2381. Nemethy, G., Pottle, M. S., & Scheraga, H. A., (1983) Energy Paramters in Polypeptides, 9. Updating of Geometrical Parameters, Non-bonding Interactions and Hydrogen Bonding Interactions for Naturally Occuring Amino Acids, J. PHys. Chem. 87, 1883-1887. Sippl, M. J., Nemethy, G., & Scheraga, H. A., (1984) Intermolecular Potentials for Crystal Data 6. Determination of Empirical Potentials for 0-H---O=C Hydrogen Bonds for Packing Configurations, J. Phys. Chem. 88, 6231-6633. GROMOS: Hermans, J., Berendsen, H. J. C., van Gunsteren, W. F., & Postma, J. P. M., (1984) "A Consistent Empirical Potential for Water-Protein Interactions," Biopolymers 23, 1 Ott, K-H., B. Meyer (1996) "Parametrization of GROMOS force field for oligosaccharides and assessment of efficiency of molecular dynamics simulations," J Comp Chem 17, 1068-1084> van Gunsteren, W. F., X. Daura and A.E. Mark (1997) "The GROMOS force field" in Encyclopaedia of Computational Chemistry () MM2: Allinger, N. L. (1977) Conformational Analysis 130. MM2. A Hydrocarbon Force Field Utilizing V1 and V2 Torsional Terms, J. Am. Chem. Soc. 99, 8127-8134. Allinger, N. L., Kok, R. A., and Imam, M. R. (1988) Hydrogen Bonding in MM2, J. Comp. Chem. 9, 591-595. Lii, J-H., Gallion,S., Bender,C., Wikstrom, H., Allinger, N. L., Flurchick, K. M., and Teeter, M. M.,(1989) Molecular Mechanics (MM2) "Calculations on Peptides and on the Protein Crambin Using the Cyber 205" J. Comp. Chem. 10, 503-513. MM3: NOTE: In some papers of this series, the MM3 stretch potential is written incorrectly. The proper potential is E = ....(7/12) (2.55(l-lo))2] (J-H. Lii, personal communication). Allinger, N. L., Yuh, Y. H., & Lii, J-H. (1989) Molecular Mechanics. The MM3 Force Field for Hydrocarbons. 1. J. Am. Chem. Soc. 111, 8551-8565. Hay, B. P., Yang, L., Lii, J-H., and Allinger, N. L. (1998) An extended MM3(96) force field for complexes of the group 1A and 2A cations with ligands bearing conjugated ether donor groups, Theochem: J. Molecular Structure 428, 203-219 Lii, J-H., & Allinger, N. L. (1989a) Molecular Mechanics. The MM3 Force Field for Hydrocarbons. 2. Vibrational Frequencies and Thermodynamics, J. Am. Chem. Soc. 111, 8566-8575. Lii, J-H., & Allinger, N. L. (1989b) Molecular Mechanics. The MM3 Force Field for Hydrocarbons. 3. The van der Waals Potentials and Crystal data for Aliphatic and Aromatic Hydrocarbons, J. Am. Chem. Soc. 111, 8576-8582. Lii, J-H., & Allinger, N. L. (1991) The MM3 Force Field for Amides, Polypeptides and Proteins, J. Comp. Chem. 12, 186-199. Lii, J-H., & Allinger, N. L. (1998) Directional Hydrogen Bonding in the MM3 Force Field. II. J. Comp. Chem. 19, 1001-1016. MM4: Allinger, N. L., K. Chen, and J-H Lii (1996) "An Improved Force Field (MM4) for Saturated Hydrocarbons," J. Comp. Chem. 17, 642-668. Allinger, N. L., K. Chen, J. A. Katzenellenbogen, S. R. Wilson and G. M. Anstead (1996) "Hyperconjugative Effects on Carbon-Carbon Bond Lengths in Molecular Mechanics (MM4)" J. Comp. Chem. 17, 747-755. Allinger, N. L., and Y. Fan (1997) "Molecular Mechanics Studies (MM4) of Sulfides and Mercaptans," J. Comp. Chem.18, 1827-1847. Nevens, N., K. Chen and N. L. Allinger (1996) "Molecular Mechanics (MM4) Calculations on Alkenes," J. Comp. Chem. 17, 669-694. Nevins, N., J-H. Lii and N.L. Allinger (1996) "Molecular Mechanics (MM4) Calculations on Conjugated Hydrocarbons," J. Comp. Chem. 17, 695-729. Nevins, N., and N. L. Allinger (1996) "Molecular Mechanics (MM4) Vibrational Frequency Calculations for Alkenes an Conjugated Hydrocarbons," J. Comp. Chem. 17, 730-746. MMFF94: Halgren, T. A. (1992) J. Am. Chem. Soc. 114, 7827-7843. Halgren, T. A. (1996) "Merck Molecular Force Field. I. Basis, Form, Scope, Parameterization and Performance of MMFF94," J. Comp. Chem 17, 490-519. Halgren, T. A. (1996) "Merck Molecular Force Field. II. MMFF94 van der Waals and Electrostatic Parameters for Intermolecular Interactions," J. Comp. Chem. 17, 520-552. Halgren, T. A. (1996) "Merck Molecular Force Field. III. Molecular Geometrics and Vibrational Frequencies for MMFF94," J. Comp. Chem. 17, 553-586. Halgren, T. A., and Nachbar, R. B. (1996) "Merck Molecular Force Field. IV. Conformational Energies and Geometries," J. Comp. Chem. 17, 587-615. Halgren, T. A. (1996) "Merck Molecular Force Field. V. Extension of MMFF94 using Experimental Data, Additional Computational Data and Empirical Rules," J. Comp. Chem. 17, 616-641. Tripos: Clark, M., Cramer III, R. D., van Opdenhosch, N., (1989) Validation of the General Purpose Tripose 5.2 Force Field, J. Comp. Chem. 10, 982-1012. Comparisons and Evaluations: Engler, E. M., J. D. Andose and P. v. R. Schleyer (1973) "Critical Evaluation of Molecular Mechanics," J. Am. Chem. Soc. 95, 8005-8025. Gundertofte, K., J. Palm, I. Pettersson and A. Stamvik (1991) "A Comparison of Conformational Energies Calculated by Molecular Mechanics (MM2(85), Sybyl 5.1, Sybyl 5.21, ChemX) and Semiempirical (AM1 and PM3) Methods," J. Comp. Chem. 12, 200-208. Gundertofte, K., T. Liljefors, P-O Norrby, I. Pattesson (1996) "Comparison of Conformational Energies Calculated by Several Molecular Mechanics Methods," J. Comp. Chem. 17, 429-449 (1996). Hall, D., and N. Pavitt (1984) "A Appraisal of Molecular Force Fields for the Representation of Polypeptides," J. Comp. Chem. 5, 441-450. Hobza, P., M. Kabelac, J. Sponer, P. Mejzlik and J. Vondrasek (1997) "Performance of Empirical Potentials (AMBER, CFF95, CVFF, CHARMM, OPS, POLTEV), Semiemprical Quantum Chemical Methods (AM1, MNDO/M, PM3) and ab initio Hartree-Fock Method for Interaction of DNA Bases: Comparison of Nonempirical Beyond Hartree-Fock Results," J. Comp. Chem. 18, 1136-1150. Kini, R. M., and H. J. Evans (1992) "Comparison of Protein Models Minimized by the All-Atom and United Atom Models in the AMBER force Field," J. Biomol. Structure and Dynamics 10, 265-279. Roterman, I. K., Gibson, K. D., and Scheraga, H. A. (1989) "A Comparison of the CHARMM, AMBER, and ECEPP/2 Potential for Peptides I." J. Biomol. Struct. and Dynamics 7, 391-419. Roterman, I. K., Lambert, M. H., Gibson, K. D., and Scheraga, H. A. (1989) "A Comparison of the CHARMM, AMBER, and ECEPP/2 Potential for Peptides II." J. Biomol. Struct. and Dynamics 7, 421-452. Whitlow, M., and M. M. Teeter (1986) "A Empirical Examination of Potential Energy Minimization using the Well-Determined Structure of the Protein Crambin," J. Am. Chem. Soc. 108, 7163-7172. From http://www.mdbbs.org/viewthread. ... hlight=%C1%A6%B3%A1 |
3Â¥2009-08-17 16:33:35
