Tytuł artykułu

Na+, K+-ATPase activity and ATP concentration in horses of the Wielkopolski breed in relation to age

Tytuł czasopisma

Polish Journal of Veterinary Sciences




No 4


Wydział PAN

Nauki Biologiczne i Rolnicze


Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in Olsztyn




DOI: 10.2478/v10181-011-0094-8 ; ISSN 1505-1773


Polish Journal of Veterinary Sciences; 2011; No 4


Annandale E. (2005), Effects of submaximal exercise on adenine nucleotide concentrations in skeletal muscle fibers of horses with polysaccharide storage myopathy, Am J Vet Res, 66, 839, ; Arthur P. (1992), Modeling the effects of hypoxia on ATP turnover in exercising muscle, J Appl Physiol, 73, 737. ; Ataullakhanov F. (1996), Energy-dependent processes and metabolism of adenylates in human erythrocytes, Biokhimiia, 61, 266. ; Brugnara C. (1997), Erythrocyte membrane transport physiology, Curr Opin Hematol, 4, 122, ; Burnstock G. (1972), Purinergic nerves, Pharmacol Rev, 24, 509. ; Burnstock G. (2006), Historical review: ATP as a neurotransmitter, Trends Pharmacol Sci, 27, 166, ; Chio S. (1977), Depression, ECT, and erythrocyte adenosine-triphosphatase activity, Biol Psychiatry, 12, 75. ; Collins D. (1998), Conducted vascular responses: communication across the capillary bed, Microvasc Res, 56, 43, ; Danek J. (1997), Effect of sugar and calcium to feed on haematological and biochemical indices in stallions blood, Med Weter, 53, 351. ; Dębski B. (1985), The effect of training and physical exercise on the energetic metabolism of equine erythrocytes, Zentralbl Veterinarmed A, 32, 190, ; Dudzińska W. (2004), Purine nucleotides of human erythrocytes - metabolism and regulation, Postepy Biochem, 50, 353. ; Dudzińska W. (2006), The purine metabolism of human erythrocytes, Biochemistry (Mosc), 71, 5, 467, ; Edner A. (2007), Metabolism before, during and after anaesthesia in colic and healthy horses, Acta Vet Scand, 15, 49. ; Ellsworth M. (1995), The erythrocyte as a regulator of vascular tone, Am J Physiol, 269. ; Fisher L. (1994), Effect of level of dietary potassium on the absorption and excretion of calcium and magnesium by lactating cows, Can J Anim Sci, 74, 503, ; Fokina K. (2000), Participation of glyceraldehyde-3-phosphate dehydrogenase in the regulation of 2,3-diphosphoglycerate level in erythrocytes, Biochemistry (Mosc), 65, 463. ; Fu Y. (1998), Erythrocyte and plasma Ca<sup>2+</sup>, Mg<sup>2+</sup> and cell membrane adenosine triphosphatase activity in patients with essential hypertension, Clin Med J (Engl), 111, 147. ; Goldenberg H. (1966), Simplified method for the estimation of inorganic phosphorus in body fluids, Clin Chem, 12, 871. ; Halawa B. (1992), The density of α-adrenergic receptors in lymphocytes and the rate of flow of sodium across cell lymphocytes membranes in the elderly people, Post Med Klin Dośw, 1, 173. ; Hłyńczak A. (1994), The level of magnesium, calcium, zinc and copper in horses serum of various breeds, Biul Magnezol, 4, 72. ; Hoffman J. (1997), ATP compartmentation in human erythrocytes, Curr Opin Hematol, 4, 112, ; Hogan M. (1992), Role of O2 in regulating tissue respiration in dog muscle working in situ, J Appl Physiol, 73, 728. ; J8rgensen P. (1982), Mechanism of the Na<sup>+</sup>, K<sup>+</sup> pump. Protein structure and conformations of the pure (Na<sup>+</sup> + K<sup>+</sup>)-ATPase, Biochim Biophys Acta, 694, 27. ; Krumrych W. (1993), Influence of gender on the blood biochemical indices in horses, Med Weter, 49, 327. ; Lowry O. (1951), Protein measurement with the Folin phenol reagent, J Biol Chem, 193, 265. ; Lutsenko S. (1995), Organization of P-type ATPases: significance of structural diversity, Biochemistry, 34, 15607, ; McCullough W. (1997), Arteriolar responses to extracellular ATP in striated muscle, Am J Physiol, 272. ; Miseta A. (1993), Relationship between cellular ATP, potassium, sodium and magnesium concentrations in mammalian and avian erythrocytes, Biochim Biophys Acta, 1175, 133, ; North R. (2002), Molecular physiology of P2X receptors, Physiol Rev, 82, 1013, ; Pedersen P. (2002), Transport ATPases in biological systems and relationship to human disease: a brief overview, J Bioenerg Biomembr, 34, 327, ; Ryś R. (1981), Standards for livestock feed. ; Schwiebert E. (2003), Extracellular ATP as a signaling molecule for epithelial cells, Biochim Biophys Acta, 1615, 7, ; Siems W. (2000), Erythrocyte free radical and energy metabolism, Clin Nephrol, 53. ; Smith D. (1993), Molecular aspects of Mg2+ transport systems, Miner Electrolyte Metab, 19, 266. ; Smoleński R. (1990), Determination of sixteen nucleotides, nucleosides and bases using high-performance liquid chromatography and its application to the study of purine metabolism in heart for transplantation, J Chromatogr, 527, 414, ; Snow D. (1990), Effects of exercise and adrenaline on equine erythrocyte ATP content, Res Vet Sci, 49, 77. ; Soto F. (1996), P2X4: an ATP-activated ionotropic receptor cloned from rat brain, Proc Natl Acad Sci USA., 93, 3684, ; Speake P. (1997), Urea - stimulated K-Cl cotransport in equine red blood cells, Pflugers Arch, 434, 104, ; Sprague R. (2001), Participation of cAMP in a signal-transduction pathway relating erythrocyte deformation to ATP release, Am J Physiol Cell Physiol, 281. ; Suska M (<b>2003</b>) The energy metabolism of horses erythrocytes aged from 4 to 48 months old. Habilitation thesis. Szczecin, Poland, (in Polish). ; Suska M. (2006), Adenylate nucleotides and 2,3-biphosphoglycerate concentration in erythrocytes of growing Wielkopolska stallions, Acta Vet Brno, 75, 13, ; Taylor L. (1995), Acid-base variables during incremental exercise in sprint-trained horses fed a high-fat diet, J Anim Sci, 73, 2009. ; Thomas S. (1998), A control analysis exploration of the role of ATP utilization in glycolytic-flux control and glycolytic-metabolite concentration regulation, Eur J Biochem, 258, 956, ; Winnicka A. (2008), The reference values of basic laboratory research in veterinary medicine.