Long ultradian rhythms in red blood cells and ghost suspensions: Possible involvement of cell membrane

Author:

Peleg L.,Dotan A.,Luzato P.,Ashkenazi I. E.

Publisher

Springer Science and Business Media LLC

Subject

Cell Biology,Clinical Biochemistry,Developmental Biology,Plant Science,Biotechnology

Reference35 articles.

1. Ashkenazi, I. E.; Hartman, H.; Strulovitz, B., et al. Activity rhythms of enzymes in human red blood cell suspensions. J. Interdiscip. Cycle Res. 6:291–301; 1975.

2. Block, G. D.; Khalsa, S. B. Cellular basis of circadian rhythmicity in bulla: a model system. In: Hekkens, W. T.; Kerkhof, G. A.; Rietveld, W. J., eds. Advance in the biosciences, vol. 73. New York: Pergamon Press; 1988:55–66.

3. Brok-Simoni, F.; Ashkenazi, I. E.; Ramot, B., et al. The diurnal rhythm of enzymes in human red cells. Br. J. Haematol. 32:601–607; 1976.

4. Cornelissen, G.; Touitou, Y.; Tritsch, A. B., et al. Circadian rhythms of Adenosine Deaminase activity in human erythrocytes: a transverse study on young, elderly and senile demented subjects. Ric. Clin. Lab. 15:365–374; 1985.

5. Cornelius, G.; Rensing, L. Daily rhythm changes in Mg+2 dependent ATPase activity in human red blood cell membranes in vitro. Biochem. Biophys. Res. Commun. 71:1269–1272; 1976.

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