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Literature DB >> 887143

Lateral mobility of human erythrocyte integral membrane proteins.

Abstract

Fluorescein isothiocyanate-labelled integral membrane proteins are mobile in the membranes of human erythrocytes that have fused (and haemolysed) by Sendai virus or polyethylene glycol. Minimum diffusion coefficients are of the order of 10(-11) cm2 s-1 at 37 degrees C. This mobility is reduced several-fold at room temperature, not detected at 0 degrees C, and is significantly greater in fresh than in aged blood. Mobility was assessed by observing the spread of fluorescence on labelled cells which had been fused with unlabelled cells; neither intramembrane particle aggregation nor spectrin release occurred during this process.

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Year: 1977 PMID： 887143 DOI： 10.1038/268023a0

Source DB: PubMed Journal: Nature ISSN： 0028-0836 Impact factor: 49.962

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Cited

35 in total

7. Movement of a fluorescent lipid label from a labeled erythrocyte membrane to an unlabeled erythrocyte membrane following electric-field-induced fusion.

Authors: A E Sowers
Journal: Biophys J Date: 1985-04 Impact factor: 4.033

8. The cytolytic toxin aerolysin must aggregate to disrupt erythrocytes, and aggregation is stimulated by human glycophorin.

Authors: W J Garland; J T Buckley
Journal: Infect Immun Date: 1988-05 Impact factor: 3.441

9. Superlytic hemolysin mutants of Serratia marcescens.

Authors: M Hilger; V Braun
Journal: J Bacteriol Date: 1995-12 Impact factor: 3.490

10. Bimane fluorescent labels: labeling of normal human red cells under physiological conditions.

Authors: N S Kosower; E M Kosower; G L Newton; H M Ranney
Journal: Proc Natl Acad Sci U S A Date: 1979-07 Impact factor: 11.205

Lateral mobility of human erythrocyte integral membrane proteins.

1. Lateral mobility of integral proteins in red blood cell tethers.

Review 2. Functional links between membrane transport and the spectrin cytoskeleton.

3. Diffusion in a fluid membrane with a flexible cortical cytoskeleton.

4. Participation of spectrin in Sendai virus-induced fusion of human erythrocyte ghosts.

5. Electrophoresis and diffusion in the plane of the cell membrane.

6. Kinetics of ultrastructural changes during electrically induced fusion of human erythrocytes.

7. Movement of a fluorescent lipid label from a labeled erythrocyte membrane to an unlabeled erythrocyte membrane following electric-field-induced fusion.

8. The cytolytic toxin aerolysin must aggregate to disrupt erythrocytes, and aggregation is stimulated by human glycophorin.

9. Superlytic hemolysin mutants of Serratia marcescens.

10. Bimane fluorescent labels: labeling of normal human red cells under physiological conditions.