Monte Carlo conformational analysis

Monte-Carlo conformational analysis of the peptidomimetic perhydropyrazino[l,2-tf]pyrimidine 32a was performed using the MacroModel V 6.0 program <1999JA12204> and for 32 (R = H R" = (CFl2)2Ph, R " = Bu Y= (CH2)2C6H4-OH-/>) using MacroModel V7.1 <2002JME1395>. 

For the construction of molecular structures, a 2D formula editor is provided in combination with 3D conversion. Standard potential energy minimization is performed using the modified parameter set of the CHARMm force field [68] the conformational models are built using Monte Carlo conformational analysis together with poling as described in the next section. 

Analysis of energy-minimized conformations generated using a 1000-step Monte Carlo conformational search with the AMBER force field by use of a MacroModel (version 3.5) demonstrates that both the benzothiazole ring and the carboxylic acid moieties of carbapenem 7 could be overlapped with those of 3-benzothiazolethiocephem <1997BMC601>. 

Other methods which are applied to conformational analysis and to generating multiple conformations and which can be regarded as random or stochastic techniques, since they explore the conformational space in a non-deterministic fashion, arc genetic algorithms (GA) [137, 1381 simulation methods, such as molecular dynamics (MD) and Monte Carlo (MC) simulations 1139], as well as simulated annealing [140], All of those approaches and their application to generate ensembles of conformations arc discussed in Chapter II, Section 7.2 in the Handbook. 

A molecular dynamics simulation samples the phase space of a molecule (defined by the position of the atoms and their velocities) by integrating Newton s equations of motion. Because MD accounts for thermal motion, the molecules simulated may possess enough thermal energy to overcome potential barriers, which makes the technique suitable in principle for conformational analysis of especially large molecules. In the case of small molecules, other techniques such as systematic, random. Genetic Algorithm-based, or Monte Carlo searches may be better suited for effectively sampling conformational space. 

A particular advantage of the low-mode search is that it can be applied to botli cyclic ajic acyclic molecules without any need for special ring closure treatments. As the low-mod> search proceeds a series of conformations is generated which themselves can act as starting points for normal mode analysis and deformation. In a sense, the approach is a system ati( one, bounded by the number of low-frequency modes that are selected. An extension of th( technique involves searching random mixtures of the low-frequency eigenvectors using Monte Carlo procedure. 

In the next section we describe the basic models that have been used in simulations so far and summarize the Monte Carlo and molecular dynamics techniques that are used. Some principal results from the scaling analysis of EP are given in Sec. 3, and in Sec. 4 we focus on simulational results concerning various aspects of static properties the MWD of EP, the conformational properties of the chain molecules, and their behavior in constrained geometries. The fifth section concentrates on the specific properties of relaxation towards equilibrium in GM and LP as well as on the first numerical simulations of transport properties in such systems. The final section then concludes with summary and outlook on open problems. 

Bernard , A., Raimondi, L., and Zanferrari, D., Conformational analysis of saccharides with Monte Carlo stochastic dynamics simulations, Theochem, 395, 361, 1997. 

Molecular mechanics calculations are an attempt to understand the physical properties of molecular systems based upon an assumed knowledge of the way in which the energy of such systems varies as a function of the coordinates of the component atoms. While this term is most closely associated with the conformational energy analyses of small organic molecules pioneered by Allinger (1), in their more general applications molecular mechanics calculations include energy minimization studies, normal mode calculations, molecular dynamics (MD) and Monte Carlo simulations, reaction path analysis, and a number of related techniques (2). Molecular mechanics... 

Podtelezhnikov, A.A., Wild, D.L. Exhaustive Metropolis Monte Carlo sampling and analysis of polyalanine conformations adopted under the influence of hydrogen bonds. Protein. Struct. Funct. Genet. 2005, 61, 94—104. 

Methods of Quantum Pharmacology for Conformational Analysis Monte Carlo Methods, Molecular Dynamics, Genetic Algorithms... 

A conformational study of novel polyhydroxylated azepanes has been reported in which the 1H NMR spectroscopy and molecular modeling (molecular mechanics, molecular dynamics, and Monte Carlo methods) afforded insights into aspects of the conformational analysis <2004EJ04119>. 

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