Summary
Isolated protoplasmic droplets of the algaNitella were investigated with microelectrodes in artificial vacuolar sap. The following observations were made:
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1.
Two types of preparations could be distinguished differing in size and in time of adaptation to artificial pond water but only slightly in their electrical behaviour.
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2.
The droplets proved to be electrically excitable in the sense that short current pulses elicited electrical responses which outlasted the stimuli.
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3.
The responses resembled nerve action potentials in shape and duration but they were graded and could be elicited as well in positive as in negative direction. Moreover, spontaneous changes of the normal resting potential (a few millivolts inside negative) did not influence their amplitudes.
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4.
In most cases the amplitudes of the responses grew with time and saturated after about 90 min. Before saturation the relation between stimulus strength and amplitude of responses was almost linear but became slightly S-shaped after saturation. The saturation value of the responses caused by 100 μs pulses of 1 μA/mm2 was taken as a standard response. In 32 experiments the standard response varied considerably between 2 and 90 mV and was 13 mV on the average.
The observations suggest that quite different mechanisms are responsible for the transients of theNitella droplets and the all-or-none responses of nerve fibres.
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References
Brinley, F. J.: Excitation and conduction in nerve fibers. In: Medical Physiology, Vol. I 13th ed. V. B. Mountcastle, ed. St. Louis: The C. V. Mosby Company 1974
Inoue, I., Ishida, N., Kobatake, Y.: Studies of excitable membrane formed on the surface of protoplasmic droplets isolated from Nitella. V. Effect of the chemical modification of membrane proteins with SH reagents on excitability. Biochim. biophys. Acta (Amst.)367, 24–31 (1974)
Inoue, I., Ishima, Y., Takenaka, T.: 124. Properties of excitable membranes produced on the surface of protoplasmic drop in Nitella. Proc. Japan Acad.47, 549–553 (1971)
Inoue, I., Ueda, T., Kobatake, Y.: Structure of excitable membranes formed on the surface of protoplasmic drops isolated from Nitella. I. Conformation of surface membrane determined from the refractive index and from enzyme actions. Biochim. biophys. Acta (Amst.)298, 653–663 (1973)
Kamiya, N., Kuroda, K.: 39. Cell operation in Nitella. I. Cell amputation and effusion of the endoplasm. Proc. Japan Acad.33, 149–152 (1957)
Koppenhöfer, E.: Electrical excitability of protoplasmic droplets from Nitella cells. Pflügers Arch.347, R 36 (1974)
Koppenhöfer, E., Schramm, M.: A method for electrical measurements on isolated protoplasmic droplets from Nitella. Pflügers Arch.350, 341–346 (1974a)
Koppenhöfer, E., Schramm, M.: Intracellular application of strong currents under current clamp conditions. Pflügers Arch.350, 335–340 (1974b)
Miyake, M., Inoue, I., Kobatake, Y.: Studies of excitable membrane formed on the surface of protoplasmic drops isolated from Nitella. III. Impedance of the surface membrane. Biochim. biophys. Acta (Amst.)323, 367–377 (1973)
Takenaka, T., Inoue, I., Ishima, Y., Horie, H.: 125. Excitability of surface membrane of protoplasmic drop produced from protoplasm in Nitella. Proc. Japan Acad.47, 554–557 (1971)
Ueda, T., Inoue, I., Kobatake, Y.: Studies of excitable membrane formed on the surface of protoplasmic drops isolated from Nitella. II. Tension at the surface of protoplasmic drops. Biochim. biophys. Acta (Amst.)318, 326–334 (1973)
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Koppenhöfer, E. Electrical responses of isolated protoplasm from Nitella. Pflugers Arch. 358, 179–187 (1975). https://doi.org/10.1007/BF00583926
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DOI: https://doi.org/10.1007/BF00583926