Paper Citing NAMD - Abstract
Caulfield, Thomas R.
Inter-ring rotation of apolipoprotein A-I protein monomers for the double-belt model using biased molecular dynamics
JOURNAL OF MOLECULAR GRAPHICS & MODELLING, 29:1006-1014, AUG 2011
The double belt model for lipid-bound discoidal apolipoprotein A-I consists of two alpha-helical monomers bound about an unilamellar bilayer of lipids. Previous work, based on salt bridge calculations, has demonstrated that the L5/5 registration, Milano mutant, and Paris mutant are preferred conformations for apolipoprotein A-I. The salt bridge scoring indicated better energetic scoring in these alignments. The Paris (R151C) and Milano (R173C) mutants indicate a mode of change must be available. To find proper registration, one proposed change is a 'rotationally' independent circular motion of the two protein monomers about the lipid unilamellar bilayer core. Here, we present computational data for independent inter-ring rotation of the two alpha-helical monomers about the lipid unilamellar bilayer core. The simulations presented here support the existing double-belt model. We find the rotation of the two protein monomers is able to occur with biasing. We determine that a cysteine mutant at Glu107 as a possible target for future mutational studies. Since HDL remodeling is necessary for cholesterol transport, our model for remodeling through dynamics has substantial biomedical implications. (C) 2011 Elsevier Inc. All rights reserved.
