X-Ray Diffraction Study in Water of Lipids Extracted from Human Erythrocytes: The Position of Cholesterol in the Lipid Lamellae

HOME

HELP

Biophysical Journal 8: 125-137 (1968)
© 1968 the Biophysical Society

This Article

Full Text (PDF)

Alert me when this article is cited

Alert me if a correction is posted

Services

Similar articles in this journal

Similar articles in PubMed

Alert me to new issues of the journal

Download to citation manager

Citing Articles

Citing Articles via HighWire

Citing Articles via Google Scholar

Google Scholar

Articles by Rand, R. P.

Articles by Luzzati, V.

Search for Related Content

PubMed

PubMed Citation

Articles by Rand, R. P.

Articles by Luzzati, V.

X-Ray Diffraction Study in Water of Lipids Extracted from Human Erythrocytes

The Position of Cholesterol in the Lipid Lamellae

R. P. Rand and V. Luzzati

ABSTRACT

Lipids, carefully extracted from fresh human erythrocytes, formliquid-crystalline structures in water. A phase diagram of thissystem was constructed, characterizing, by X-ray diffraction,the structures which form as a function of concentration oflipid and temperature. One extended range of concentration ofthe phase diagram, in which a single lamellar phase exists,permitted further analysis of the diffraction data. This phaseconsists of lipid layers of constant thickness separated bywater layers of varying thickness according to the water contentof the system. The distribution of the electron density is preciselyanalyzed and the amplitude of the reflections is, at all concentrations,proportional to the Fourier Transform of an isolated lipid layer.This shows that the lipid layer is filled with the hydro-carbonchains of the phospholipids and is covered on both sides bytheir hydrophilic groups. Cholesterol, present in high concentrationin erythrocyte membranes, is located so that part of its steroidnucleus is between the polar groups of the phospholipid moleculeswhile the rest of the molecule extends into the inner hydrocarbonlayer.

This article has been cited by other articles:

L McCaughan and S Krimm
X-ray and neutron scattering density profiles of the intact human red blood cell membrane
Science, March 28, 1980; 207(4438): 1481 - 1483.
[Abstract] [PDF]

D. LeNeveu, R. Rand, D Gingell, and V. Parsegian
Apparent modification of forces between lecithin bilayers
Science, January 30, 1976; 191(4225): 399 - 400.
[Abstract] [PDF]

D. M. Small and G. G. Shipley
Physical-Chemical Basis of Lipid Deposition in Atherosclerosis
Science, July 19, 1974; 185(4147): 222 - 229.
[PDF]

R. L. Hamilton, R. J. Havel, J. P. Kane, A. E. Blaurock, and T. Sata
Cholestasis: Lamellar Structure of the Abnormal Human Serum Lipoprotein
Science, April 30, 1971; 172(3982): 475 - 478.
[Abstract] [PDF]

				D. LeNeveu, R. Rand, D Gingell, and V. Parsegian Apparent modification of forces between lecithin bilayers Science, January 30, 1976; 191(4225): 399 - 400. [Abstract] [PDF]

				D. M. Small and G. G. Shipley Physical-Chemical Basis of Lipid Deposition in Atherosclerosis Science, July 19, 1974; 185(4147): 222 - 229. [PDF]

				R. L. Hamilton, R. J. Havel, J. P. Kane, A. E. Blaurock, and T. Sata Cholestasis: Lamellar Structure of the Abnormal Human Serum Lipoprotein Science, April 30, 1971; 172(3982): 475 - 478. [Abstract] [PDF]