Changes in potassium ion pump transport and ouabain binding sites in erythrocytes of genetically low potassium ion lambs
Lauf, P.K.; Shoemaker, D.G.; Joiner, C.H.
Biochimica et Biophysica Acta 507(3): 544-548
1978
ISSN/ISBN: 0005-2728 Accession: 004910912
Red cells from 3 genetically low K+ lambs exhibited the following attributes: high cell K+ and K+ pump activity and 135 pumps/cell on day 3 after birth; increased cellular Na+, and a decrease of the number of pumps relative to K+ pump flux on day 17; and low cell K+, low K+ pump flux and about 40-50 pumps/cell on day 40 or later.
PDF emailed within 1 workday: $29.90
Related References
Joiner, C.H.; Lauf, P.K. 1978: Modulation of ouabain binding and potassium pump fluxes by cellular sodium and potassium in human and sheep erythrocytes Journal of Physiology 283: 177-196Silver, L.H.; Loew, E.L.; Houser, S.R. 1985: The relationships between ouabain binding sodium potassium pump mediated potassium transport and intracellular sodium and potassium levels in isolated feline ventricular myocytes Biophysical Journal 47(2 Part 2): 151A
Norgaard, A.; Kjeldsen, K.; Clausen, T. 1981: Potassium depletion decreases the number of tritium labeled ouabain binding sites and the active sodium potassium transport in skeletal muscle Nature (London) 293(5835): 739-741
Gerthoffer, W.T.; Allen, J.C. 1981: Characteristics of binding of [3H]ouabain to smooth muscle sodium-potassium adenosine triphosphatase and quantitation of sodium-potassium pump sites Journal of Pharmacology and Experimental Therapeutics 217(3): 692-696
Joiner, C.H.; Lauf, P.K. 1978: The correlation between ouabain binding and potassium pump inhibition in human and sheep erythrocytes Journal of Physiology 283: 155-175
Dunham, P.B.; Hoffman, J.F. 1969: Correlation of t ouabain hematol binding and potassium transport in high potassium and low potassium red cells of sheep abstract Federation Proceedings 28(2): 339
Joiner, C.H.; Lauf, P.K. 1976: Potassium transport and ouabain binding in young and old populations of human erythrocytes Federation Proceedings 35(3): 781
Kakar, S.S.; Huang W H.; Askari, A. 1988: Properties of the sodium potassium and atp binding sites of the ouabain complexed sodium potassium atpase implications for the mechanism of ouabain action Skou, J C , Et Al (Ed ) Progress in Clinical And Biological Research, Vol 268a The Na+,k+-Pump, Part A: Molecular Aspects; 5th International Conference on Na+,k+-Atpase, Denmark, June 14-19, 1987 Xxxii+665p Alan R Liss, Inc : New York, New York, Usa Illus 211-218
Zade Oppen, A.M.M.; Lauf, P.K. 1988: Ouabain resistant potassium transport in low potassium sheep red blood cells has internal and external ph sensitive sites Comparative Biochemistry and Physiology A 90(4): 811
Wong, S.K.; Westfall, D.P.; Menear, D.; Fleming, W.W. 1984: Sodium-potassium pump sites, as assessed by [3H]-ouabain binding, in aorta and caudal artery of normotensive and spontaneously hypertensive rats Blood Vessels 21(5): 211-222
Epstein, J.A.; Lechene, C. 1986: In oua r6 cells ouabain induces a ouabain resistant sodium potassium pump and dramatic morphological changes occur in low potassium media Journal of Cell Biology 103(5 Part 2): 177A
Farquharson, B.; Dunham, P. 1986: Intracellular potassium promotes antibody binding to an antigen associated with the sodium potassium pump of sheep erythrocytes Federation Proceedings 45(4): 802
Godfraind, T.; De Pover, A.; Lutete D N.T. 1980: Identification with potassium and vanadate of 2 classes of specific ouabain binding sites in a sodium potassium atpase preparation from the guinea pig heart Biochemical Pharmacology 29(8): 1195-1200
Kjeldsen, K.; Everts, M.E.; Clausen, T. 1986: Effects of semi-starvation and potassium deficiency on the concentration of [3H]ouabain-binding sites and sodium and potassium contents in rat skeletal muscle British Journal of Nutrition 56(3): 519-532
Dunham, P.B.; Hoffman, J.F. 1971: Active cation transport and ouabain binding in high potassium and low potassium red blood cells of sheep Journal of General Physiology 58(1): 94-116
Nørgaard, A.; Kjeldsen, K.; Clausen, T. 1981: Potassium depletion decreases the number of 3H-ouabain binding sites and the active Na-K transport in skeletal muscle Nature 293(5835): 739-741
Breier, A.; Ziegelhoffer, A. 2000: Importance of lysine residues for binding of potassium into potassium binding sites of sodium pump Physiological Research 49(4): P8
Lauf, P.K. 1988: Kinetic comparison of ouabain resistant potassium chloride fluxes potassium chloride co transport stimulated in sheep erythrocytes by membrane thiol oxidation and alkylation Molecular and Cellular Biochemistry 82(1-2): 97-106
Nonaka, T.; Warden, D.H.; Stokes, J.B. 1992: Analysis of potassium transport by rabbit ccd conducive pathways and potassium potassium exchange by sodium potassium pump American Journal of Physiology 262(1 Part 2): F86-F97
Rakowski, R.F.; De Weer, Paul; Gadsby, David C. 1992: High-field access channel to external binding sites of the sodium, potassium pump demonstrated by voltage dependence of electroneutral sodium, sodium and potassium, potassium exchanges Journal of General Physiology 100(6): 69A-70A