Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene delivery agents both in vitro and in vivo. Here we employ molecular dynamics simulations for a detailed atomistic study of lipid bilayers consisting of a mixture of cationic dimyristoyltrimethylammonium propane (DMTAP) and zwitterionic dimyristoylphosphatidylcholine (DMPC). Our main objective is to examine how the composition of the DMPC/DMTAP bilayers affects their structural and electrostatic properties in the liquid-crystalline phase. By varying the mole fraction of DMTAP, we have found that the area per lipid has a pronounced nonmonotonic dependence on the DMTAP concentration, with a minimum around the point of equimolar DMPC/DMTAP mixture....
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
Positively charged lipid bilayer systems are a promising class of nonviral vectors for safe and effi...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
AbstractCationic lipid membranes are known to form compact complexes with DNA and to be effective as...
AbstractCationic lipid membranes are known to form compact complexes with DNA and to be effective as...
We performed atomistic molecular dynamics simulations of lipid bilayers consisting of a mixture of c...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
Positively charged lipid bilayer systems are a promising class of nonviral vectors for safe and effi...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
Cationic lipid membranes are known to form compact complexes with DNA and to be effective as gene de...
AbstractCationic lipid membranes are known to form compact complexes with DNA and to be effective as...
AbstractCationic lipid membranes are known to form compact complexes with DNA and to be effective as...
We performed atomistic molecular dynamics simulations of lipid bilayers consisting of a mixture of c...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
An atomic-scale understanding of cationic lipid membranes is required for development of gene delive...
Positively charged lipid bilayer systems are a promising class of nonviral vectors for safe and effi...