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Molecular-dynamics of surface lipids in human serum lipoproteins studied by ESR (CROSBI ID 135386)

Prilog u časopisu | izvorni znanstveni rad | međunarodna recenzija

Kveder, Marina ; Pifat Mrzljak, Greta ; Pečar, Slavko ; Schara, Milan Molecular-dynamics of surface lipids in human serum lipoproteins studied by ESR // Croatica chemica acta, 65 (1992), 1; 201-209

Podaci o odgovornosti

Kveder, Marina ; Pifat Mrzljak, Greta ; Pečar, Slavko ; Schara, Milan

engleski

Molecular-dynamics of surface lipids in human serum lipoproteins studied by ESR

Human serum lipoproteins were investigated using electron spin resonance in order to study the molecular dynamics or the surface phospholipid monolayer. Two different nitroxides were incorporated in LDL, HDL2 and HDL3: MeFASL(10, 3), with the paramagnetic doxyl group located near the phospholipid surface of the particle, and MeFASL(2, 11) where the doxyl group penetrates deeper into lipoprotein interior. The results indicate that the rotational correlation time tau(c) of MeFASL(2, 11) is similar in all three particles, suggesting rast nonrandom motion in this nearly isotropic region of the monolayer. On the other hand, the rotational correlation time of MeFASL(10, 3) is different in different lipoproteins. The theoretical analysis of this phenomenon reveals structural changes and dynamical constraints in the phospholipid surface of different lipoproteins when fatty acid esters are incorporated into these particles. At the same time, the rotational correlation time of MeFASL(10, 3) does not indicate any influence or protein components on the mobility constraints in the surface domains of different lipoproteins. These results support the recently published observation against any long-lived lipid-protein interactions occurring on the nanosecond time scale.

low-density lipoprotein ; spin-label ; binding

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Podaci o izdanju

65 (1)

1992.

201-209

objavljeno

0011-1643

Povezanost rada

Fizika

Poveznice