Efficacy of the two-microelectrode voltage clamp technique in crayfish muscle |
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Authors: | W Finger H Stettmeier |
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Institution: | (1) Physiologisches Institut der Technischen Universität München, Biedersteiner Strasse 29, D-8000 München 40, Germany |
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Abstract: | Crayfish muscle fibres of different dimensions were voltage clamped and white noise current was injected into the fibres at various distances from the voltage clamp current electrode. The clamp current was measured and power spectral densities were calculated. This method revealed the efficacy of the voltage clamp in these fibres. In large fibres (l=1.8–2.0 mm; =100–180 m) a space clamp was achieved only for a band width f=40Hz. At a distance of 100 m from the clamp electrodes f was 250–500Hz. In fibres of medium size (l=1.0–1.3mm; =60–120 m) f was about 80Hz and about 800 Hz at a distance of 100 m. In experiments with very small muscle fibres (l=400–600 m; =30–50 m) f was more than 500Hz. The improvement of the space clamp for the smaller muscle fibres resulted mainly from the reduced total membrane capacity,c
m, of these fibres. The limitations of the space clamp could be derived from the impedance properties of the fibres. The band width of the space clamp correlated with the band width for which the square of the absolute impedance, |Z
p|2, of the muscle fibre could be described by a simple RC-model. This correlation was demonstrated in a model circuit.Power density spectra of membrane current fluctuations were measured also. To optimize the resolution of these measurements the contribution of instrumental noise was minimized. The effects of instrumental noise are discussed.This investigation was supported by the Deutsche Forschungs-gemeinschaft |
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Keywords: | Muscle fibres Space clamp quality Impedance Noise analysis |
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