Skip Nav Destination
Further evidence for a membrane potential-dependent shape transformation of the human erythrocyte membrane
Biosci Rep (1986) 6 (11): 999–1006.
This article has been cited by the following articles in journals that are participating in CrossRef Cited-by Linking.
- Timothy Moore
- Iryna Sorokulova
- Oleg Pustovyy
- Ludmila Globa
- David Pascoe
- Mary Rudisill
- Vitaly Vodyanoy
Microscopy Research and Technique (2013) 76 (11): 1163.
Low concentration of extracellular hemoglobin affects shape of RBC in low ion strength sucrose solution
- Sergey V. Rudenko
Bioelectrochemistry (2009) 75 (1): 19.
A hypothesis of the disc–sphere transformation of the erythrocytes between glass surfaces and of related observations
- Pierre Wong
Journal of Theoretical Biology (2005) 233 (1): 127.
A hypothesis on the role of the electrical charge of haemoglobin in regulating the erythrocyte shape
- P. Wong
Medical Hypotheses (2004) 62 (1): 124.
On the mechanism of stomatocyte–echinocyte transformations of red blood cells: experiment and theoretical model
- K.D Tachev
- K.D Danov
- P.A Kralchevsky
Colloids and Surfaces B: Biointerfaces (2004) 34 (2): 123.
Does the Transmembrane Potential (Δψ) or the Intracellular pH (pHi) Control the Shape of Human Erythrocytes?
- Roland Glaser
Biophysical Journal (1998) 75 (1): 569.
The effect of ionic strength and outer surface charge on the membrane electric potential profile: A simple model for the erythrocyte membrane
- C. Cortez-Maghelly
- P.M. Bisch
Bioelectrochemistry and Bioenergetics (1993) 32 (3): 305.
Mechanisms of electromechanical coupling in membranes demonstrated by transmembrane potential-dependent shape transformations of human erythrocytes
- R. Glaser
Bioelectrochemistry and Bioenergetics (1993) 30: 103.
- J. Hartmann
- R. Glaser
Bioscience Reports (1991) 11 (4): 213.