Dufourc, Érick J.; Mayer, Christian; Stohrer, Jürgen; Althoff, Gerhard; Kothe, Gerd:
Dynamics of phosphate head groups in biomembranes
In: Biophysical Journal, Jg. 61 (1992), Heft 1, S. 42 - 57
1992Artikel/Aufsatz in ZeitschriftOpen Access
ChemieFakultät für Chemie » Physikalische Chemie
Damit verbunden: 1 Publikation(en)
Titel in Englisch:
Dynamics of phosphate head groups in biomembranes
Autor*in:
Dufourc, Érick J.
;
Mayer, ChristianUDE
GND
100307078
LSF ID
501
ORCID
0000-0003-1681-0553ORCID iD
Sonstiges
der Hochschule zugeordnete*r Autor*in
;
Stohrer, Jürgen
;
Althoff, Gerhard
;
Kothe, Gerd
Erscheinungsjahr:
1992
Open Access?:
Open Access
PubMed ID
Scopus ID
Sprache des Textes:
Englisch

Abstract in Englisch:

Phospholipid head group dynamics have been studied by pulsed phosphorus-31 nuclear magnetic resonance (31P-NMR) of unoriented and macroscopically aligned dimyristoylphosphatidylcholine model membranes in the temperature range, 203–343 K. Lineshapes and echo intensities have been recorded as a function of interpulse delay times, temperature and macroscopic orientation of the bilayer normal with respect to the magnetic field. The dipolar proton-phosphorus (1H-31P) contribution to the transverse relaxation time, T2E, and to lineshapes was eliminated by means of a proton spin-lock sequence. In case of longitudinal spin relaxation, T1Z, the amount of dipolar coupling was evaluated by measuring the maximum nuclear Overhauser enhancement. Hence, the results could be analyzed by considering chemical shift anisotropy as the only relaxation mechanism. The presence of various minima both in T1Z and T2E temperature plots as well as the angular dependence of these relaxation times allowed description of the dynamics of the phosphate head group in the 31P-NMR time window, by three different motional classes, i.e., intramolecular, intermolecular and collective motions. The intramolecular motions consist of two hindered rotations and one free rotation around the bonds linking the phosphate head group to the glycerol backbone. These motions are the fastest in the hierarchy of time with correlation times varying from less than 10(-12) to 10(-6) s in the temperature range investigated. The intermolecular motions are assigned to phospholipid long axis rotation and fluctuation. They have correlation times ranging from 10(-11) s at high temperatures to 10(-3) s at low temperatures. The slowest motion affecting the 31P-NMR observables is assigned to viscoelastic modes, i.e., so called order director fluctuations and is only detected at high temperatures, above the main transition in pulse frequency dependent T2ECP experiments. Comprehensive analysis of the phosphate head group dynamics is achieved by a dynamic NMR model based on the stochastic Liouville equation. In addition to correlation times, this analysis provides activation energies and order parameters for the various motions, and a value for the bilayer elastic constant. © 1992, The Biophysical Society. All rights reserved.