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Institute of Organic Chemistry
and Biochemistry of the CAS

Take the step towards a career in organic chemistry and biochemistry...

Publications

All publications
Improved Cation Binding to Lipid Bilayers with Negatively Charged POPS by Effective Inclusion of Electronic Polarization
Improved Cation Binding to Lipid Bilayers with Negatively Charged POPS by Effective Inclusion of Electronic Polarization
Josef Melcr
T. M. Ferreira
Pavel Jungwirth
Samuli Ollila
Journal of Chemical Theory and Computation - (-): Early View (2020).
Phosphatidylserine (PS) lipids are important signaling molecules and the most common negatively charged lipids in eukaryotic membranes. The signaling can be often regulated by calcium, but its interactions with PS headgroups are not fully understood. Classical molecular dynamics (MD) simulations can potentially give detailed description of lipid–ion interactions, but the results strongly depend on the used force field. Here, we apply the electronic continuum correction (ECC) to the Amber Lipid17 parameters of 1-palmitoyl-2-oleoyl-sn-glycero-3-phospho-L-serine (POPS) lipid to improve its interactions with K+, Na+, and Ca2+ ions. The partial charges of the headgroup, glycerol backbone, and carbonyls of POPS, bearing a unit negative charge, were scaled with a factor of 0.75, derived for monovalent ions, and the Lennard-Jones σ parameters of the same segments were scaled with a factor of 0.89. The resulting ECC-POPS model gives more realistic interactions with Na+ and Ca2+ cations than the original Amber Lipid17 parameters when validated using headgroup order parameters and the “electrometer concept”. In ECC-lipids simulations, populations of complexes of Ca2+ cations with more than two PS lipids are negligible, and interactions of Ca2+ cations with only carboxylate groups are twice more likely than with only phosphate groups, while interactions with carbonyls almost entirely involve other groups as well. Our results pave the way for more realistic MD simulations of biomolecular systems with anionic membranes, allowing signaling processes involving PS and Ca2+ to be elucidated.
Analysis of (O-acyl) alpha- and omega-hydroxy fatty acids in vernix caseosa by high-performance liquid chromatography-Orbitrap mass spectrometry
Aneta Vavrušová
Vladimír Vrkoslav
R. Plavka
Z. Bosáková
Josef Cvačka
Analytical and Bioanalytical Chemistry 2020 : Early View (2020).
High-Performance Liquid Chromatography as a Novel Method for the Determination of α-Defensins in Synovial Fluid for Diagnosis of Orthopedic Infections
P. Melicherčík
E. Klapková
K. Kotaška
D. Jahoda
I. Landor
Václav Čeřovský
Diagnostics 10 (1): 33 (2020).
Tuning of Oxidation Potential of Ferrocene for Ratiometric Redox Labeling and Coding of Nucleotides and DNA
Anna Simonova
I. Magriñá
Veronika Sýkorová
Radek Pohl
M. Ortiz
Luděk Havran
L. Havran
Miroslav Fojta
M. Fojta
C. K. O'Sullivan
C. O′Sullivan
Michal Hocek
Chemistry - A European Journal - (-): Early View (2020).

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