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Publication
Interaction of antimicrobial peptides, BP100 and pepR, with model membrane systems as explored by brownian dynamics simulations on a coarse-grained model
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Advisor(s)
Abstract(s)
This work focuses on the conformational and dynamic
properties of the antimicrobial peptides (AMPs), BP100
and pepR, when confined within model membrane
systems. Brownian dynamics (BD) simulations of a
coarse-grained model of each respective peptide in an
environment reproducing the phospholipid bilayer were
carried out. Simple mean-field potentials were used to
reproduce three physically different model
phosphatidylcholine (PC) membrane systems. Based on
the simplicity of the peptide-membrane models used, 1 ls
simulations were performed. With the appropriate choice
of parameters, the structure and dynamics of each peptide
were recovered from each of the simulated BD trajectories.
BP100 was observed to adopt a a-helical conformation
when confined in each PC membrane. For pepR under the
same conditions, the formation of an N-terminal a-helix
was detected, whereas the C-terminus appeared to be less
ordered. The dynamic properties of each peptide were
characterized in terms of local and global motions. BP100
tended to localize with no preferred orientation
approximately halfway across each membrane leaflet,
whereas pepR localized near the membrane core with no
preferred orientation. Overall, the peptide dynamics were
found to vary according to the size of the peptide, as well
as the width of the membrane environment.
Description
Keywords
Antimicrobial peptide Brownian dynamics simulation Coarse-grained model Mean-field potential Membrane model . Faculdade de ciências Exatas e da Engenharia
Citation
Alves, C. S., Kairys, V., Castanho, M. A., & Fernandes, M. X. (2012). Interaction of antimicrobial peptides, BP100 and pepR, with model membrane systems as explored by brownian dynamics simulations on a coarse‐grained model. Peptide Science, 98(4), 294-312.
Publisher
Wiley