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Liposomes effect of temperature on their mode of action on single frog rana pipiens skeletal muscle fibers


, : Liposomes effect of temperature on their mode of action on single frog rana pipiens skeletal muscle fibers. Biochimica Et Biophysica Acta: 427-432



Accession: 028636950

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Related references

Leung, J.G., 1980: Liposomes. Effect of temperature on their mode of action on single frog skeletal muscle fibers. Liposomes containing the fluorescent dye 6-carboxyfluorescein were made from dipalmitoyl phosphatidylcholine and stearylamine. At 4 degrees C the liposomes are adsorbed on the fiber surface and when the temperature is raised to 21 degrees C, their...

Mobley B.A.; Eidt G., 1982: Transverse impedance of single frog rana pipiens skeletal muscle fibers. The transverse electrical impedance of single frog skeletal muscle fibers was measured at 31 frequencies that ranged from 1-100,000 Hz. Each fiber was bathed entirely in Ringer's solution, but it was positioned so that a central length of 5 m...

Kumbaraci N.M.; Nastuk W.L., 1982: Action of caffeine in excitation contraction coupling of frog rana pipiens skeletal muscle fibers. Frog sartorius muscle bathed in 1 mM caffeine generated brief asynchronous contraction of individual sarcomeres, sarcomeric oscillations, and propagated contractile waves. Analysis of cinematographic records showed that during sarcomeric oscillati...

Putnam R.W., 1985: Effect of insulin on intracellular ph in frog rana pipiens skeletal muscle fibers. The effect of insulin of intracellular pH (pHi) and membrane potential was studied in frog semitendinosus muscle fibers, using recessed-tip pH-sensitive glass microelectrodes and conventional 3 M KCl-filled microlelectrodes. After a lag period of...

Cota G.; Nicola Siri L.; Stefani E., 1984: Calcium channel inactivation in frog rana pipiens and rana montezuma skeletal muscle fibers. The decay of the Ca2+ current (ICa) during a maintained depolarization was studied in intact twitch skeletal muscle fibers of R. pipiens and R. montezuma with the 3-microelectrode voltage-clamp technique. ICa was recorded at 23.degree. C, after bl...

Vaughan P.C.; Bressler B.H.; Dusik L.A.; Trotter M.J., 1983: Hypertonicity and force development in frog rana pipiens skeletal muscle fibers. Mechanical experiments were performed on isolated fiber bundles of frog semitendinosus muscle, using solutions made hypertonic by the addition of sucrose or NaCl. Muscle stiffness was measured with 1-ms step changes of length, from the plateau of...

Lopez J.R.; Alamo L.; Caputo C.; Dipolo R.; Vergara J., 1983: Determination of ionic calcium in frog rana pipiens skeletal muscle fibers. Ionic Ca concentrations were measured in frog skeletal msucle fibers using Ca-selective microelectrodes. In fibers with resting membrane potentials more negative than -85 mV, the mean pCa [-log Ca concentration] value was 6.94 (0.12 .mu.M). In fib...

Harvey C.; Rojas E.; Suarez Isla B.A., 1979: Slow sodium conductance inactivation in frog rana pipiens skeletal muscle fibers. Journal of Physiology (Cambridge) 291: 56P

Rakowski R.F.; Sommerer J.C., 1981: Diffusion of the calcium ion indicator dye arsenazo iii in aqueous solution and in frog rana pipiens skeletal muscle fibers. Biophysical Journal 33(2 PART 2): 150A

Garcia M.C.; Pollack G.H., 1983: Effect of adrenaline on the length tension relation in single fibers of frog rana temporaria skeletal muscle. Biophysical Journal 41(2 PART 2): 263A