Miszta P, Pasznik P, Niewieczerzał S, Młynarczyk K, Filipek S. COGRIMEN: Coarse-Grained Method for Modeling of Membrane Proteins in Implicit Environments.
J Chem Theory Comput 2022;
18:5145-5156. [PMID:
35998323 PMCID:
PMC9476660 DOI:
10.1021/acs.jctc.2c00140]
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Abstract
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The presented methodology is based on coarse-grained
representation
of biomolecules in implicit environments and is designed for the molecular
dynamics simulations of membrane proteins and their complexes. The
membrane proteins are not only found in the cell membrane but also
in all membranous compartments of the cell: Golgi apparatus, mitochondria,
endosomes and lysosomes, and they usually form large complexes. To
investigate such systems the methodology is proposed based on two
independent approaches combining the coarse-grained MARTINI model
for proteins and the effective energy function to mimic the water/membrane
environments. The latter is based on the implicit environment developed
for all-atom simulations in the IMM1 method. The force field solvation
parameters for COGRIMEN were initially calculated from IMM1 all-atom
parameters and then optimized using Genetic Algorithms. The new methodology
was tested on membrane proteins, their complexes and oligomers. COGRIMEN
method is implemented as a patch for NAMD program and can be useful
for fast and brief studies of large membrane protein complexes.
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