AbstractUnsaturated phospholipid is the membrane component that is essential to the dynamic environment needed for biomembrane function. The dependence of the chain-melting transition temperature, Tt, of phospholipid bilayer membranes on the position, nu, of the cis double bond in the glycerophospholipid sn-2 chain can be described by an expression of the form Tt=Ttc(1+h′c|nu−nc|)/(1+s′c|nu−nc|), where nc is the chain position of the double bond corresponding to the minimum transition temperature, Ttc, for constant diacyl lipid chain lengths. This implies that the incremental transition enthalpy (and entropy) contributed by the sn-2 chain is greater for whichever of the chain segments, above or below the double-bond position, is the longer....
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
We presented a mechanical model of a lipid bilayer membrane. The internal conformations of a polar h...
AbstractUnsaturated phospholipid is the membrane component that is essential to the dynamic environm...
AbstractFor optimum function, biological membranes need a fluid environment, which is afforded by th...
AbstractFor optimum function, biological membranes need a fluid environment, which is afforded by th...
AbstractThe biphasic dependence of the chain-melting transition temperature on chainlength, nN, of t...
AbstractThe biphasic dependence of the chain-melting transition temperature on chainlength, nN, of t...
The analysis of the chain-length dependence of the chain-melting transition temperatures of bilayers...
Chain length dependence of phosphatidic acid phase transition parameters. There is increasing eviden...
We have semisynthesized 19 species of mixed-chain phosphatidylethanolamines (PEs) in which the sn-1 ...
AbstractWe have determined calorimetrically the phase transition temperature (Tm) values of five sn-...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
We presented a mechanical model of a lipid bilayer membrane. The internal conformations of a polar h...
AbstractUnsaturated phospholipid is the membrane component that is essential to the dynamic environm...
AbstractFor optimum function, biological membranes need a fluid environment, which is afforded by th...
AbstractFor optimum function, biological membranes need a fluid environment, which is afforded by th...
AbstractThe biphasic dependence of the chain-melting transition temperature on chainlength, nN, of t...
AbstractThe biphasic dependence of the chain-melting transition temperature on chainlength, nN, of t...
The analysis of the chain-length dependence of the chain-melting transition temperatures of bilayers...
Chain length dependence of phosphatidic acid phase transition parameters. There is increasing eviden...
We have semisynthesized 19 species of mixed-chain phosphatidylethanolamines (PEs) in which the sn-1 ...
AbstractWe have determined calorimetrically the phase transition temperature (Tm) values of five sn-...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
Despite the large number of possible glycerol-based phospholipids, biological membranes contain only...
We presented a mechanical model of a lipid bilayer membrane. The internal conformations of a polar h...