Slow-motion ESR of cholestane spin labels in planar multibilayers of diacyldigalactosyldiglycerides

Abstract

The orientation and restricted motion of the cholestane spin label (3-spiro-doxyl-5α-cholestane) incorporated into planar multibilayers of diacyldigalactosyldiglycerides extracted from the thylakoid membranes of chloroplasts from different plant leaves has been studied. The experimental ESR spectra were simulated in terms of the slow-tumbling ESR formalism of Freed and co-workers (Polnaszek, C.F., Bruno, G.V. and Freed, J.H. (1973) J. Chem. Phys. 58, 3185–3199). The analysis shows that the degree of orientational order is low. The spin label molecules undergo a faster reorientational motion about their long molecular axes than perpendicular to them. At room temperature the reorientational rate around the long molecular axis falls within the fast-motional limit, while the reorientation rate of the long axis itself corresponds to the slow-tumbling regime. The results indicate that the motion of the labels in bilayers of diacyldigalactosyldiglycerides is considerably slower than that of the same label incorporated into bilayers of saturated phosphatidylcholines above the main phase transition. Differences between bilayers of diacyldigalactosyldiglycerides extracted from different plant membranes have been observed.