Authors
VP Nesterov, U Peiper, J Hiller, B Krienke, K Schüttler, C Szymanski, R Bottinelli, V Cappelli, R Minelli, C Reggiani, S Schiaffino, D Carlhoff, J D'Haese, R Dabrowska, E Nowak, YS Borovikov, P Cummins, G Russell, D McLoughlin, B Cummins, A Bonet, MC Harricane, E Audemard, D Mornet, S Ropert, F Cavaillé, CS Redwood, J Bryan, RA Cross, J Kendrick-Jones, SB Marston, M Taggart, S Marston, R Makuch, G Stokarska, R Dabrowska, G Cecchi, F Colomo, C Poggesi, C Tesi, M Puceat, O Clement, P Lechene, J -M Pelosin, R Ventura-Clapter, G Vassort, W Fischer, G Pfitzer, RJ Ankrett, AJ Rowe, CR Bagshaw, SV Perry, S Hebisch, B Levine, AJG Moir, J Leszyk, J Derancourt, V Patcheil, C Cavadore, JH Collins, K Swiderek, K Jaquet, K Mittmann, HE Meyer, LMJ Heilmeyer, F Travers, T Barman, M Duvert, X Grandier-Vazeille, A Verna, M Dan-Goor, A Mühlrad, A Muhlrad, B Polzar, P Kießling, HG Mannherz, S Lehmann-Klose, U Gröschel-Stewart, N Bettache, R Bertrand, R Kassab, A Roulet, R Cardinaud, JJ Harford, JM Squire, Y Maeda, MWK Chew, Pia Huber, Marcus C Schaub, S Pierobon-Bormioli, R Betto, S Ceoldo, G Salviati, I Martinez, R Ofstad, RL Olsen, J Trinick, D Barlow, M Gautel, T Gibson, S Labeit, K Leonard, J Wardale, A Whiting, A Draeger, M Barth, M Herzog, M Gimona, JV Small, E Stelzer, B Amos, M Ikebe, JC Bernengo, Bettina Rinne, John S Wray, KJV Poole, RS Goody, Daniel Thomas, Arthur Rowe, RR Schröder, W Hofmann, UC Müller, J -F Menetret, JS Wray, A Lakey, W Tichelaar, C Ferguson, B Bullard, W Kabsch, EF Pai, D Suck, KC Holmes, Robert Jarosch, R van Mastrigt, Gerald H Pollack, Arie Horowitz, R Anderl, HJ Kuhn, K Burton, DWG Jung, T Blangé, BW Treijtel, MA Bagni, P Garzella, AF Huxley, G Beckers-Bleukx, G Maréchal, SY Bershitsky, AK Tsaturyan, SKA Woodward
Publication date
1990/2
Journal
Journal of Muscle Research & Cell Motility
Volume
11
Pages
56-78
Publisher
Kluwer Academic Publishers
Description
Four major inorganic cations--Na+, K--, Mg 2+ and Ca 2+ contribute mainly to the regulation of activity of muscle cells. The aim of the present comparative study was fo reveal the principal factors which determine the great variety of the cationic contents in different muscles of various animais. Functionally distinguished muscles of 70 species of marine, freshwater and terrestrial animals of 6 types of metazoans were investigated. The analysis of this muscle variability in regulation to the intracellular cati, onic contents has confirmed the qualitative heterogeneity of the muscle fibre populations investigated. The data obtained have permitted a subdivision of the latter into some definite groups, depending on the ionic composition of the extracellular fluids (environmental factor) as well as on the direction and the level of the functional specialization of muscles (inherent factor). In general a linear reciprocal relationship …
Scholar articles
VP Nesterov, U Peiper, J Hiller, B Krienke, K Schüttler… - Journal of Muscle Research & Cell Motility, 1990