Amplification of small signals by voltage-gated sodium channels in drone photoreceptors |
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Authors: | Jonathan A Coles Gisela Schneider-Picard |
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Institution: | (1) Université de Genève, Laboratoire d'Ophtalmologie Expérimentale, 22 Rue Alcide-Jentzer, CH-1211 Geneva, Switzerland;(2) Present address: INSERM, U176, Rue Camille Saint-Saëns, F-33077 Bordeaux Cedex, France |
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Abstract: | Summary Photoreceptor cells of the drone,Apismellifera , have a voltage-gated Na+ membrane conductance that can be blocked by tetrodotoxin (TTX) and generates an action potential on abrupt depolarization: an action potential is triggered by the rising phase of a receptor potential evoked by an intense light flash (Autrum and von Zwehl 1964; Baumann 1968). We measured the intracellular voltage response to a small (9%), brief (30 ms) decrease in light intensity from a background, and found that its amplitude was decreased by 1M TTX. The response amplitude was maximal when the background intensity depolarized the cell to –38 mV. With intensities depolarizing the cell membrane to –45 to –33 mV the average response amplitude was decreased by TTX from 1.2mV to 0.5mV. TTX is also known to decrease the voltage noise during steady illumination (Ferraro et al. 1983) but, despite this, the ratio of peak-to-peak signal to noise was, on average, decreased by TTX. The results suggest that drone photoreceptors use voltage-gated Na+ channels for graded amplification of responses to small, rapid changes in light intensity.Abbreviations
TTX
tetrodotoxin
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V
i
intracellular potential with respect to the bath
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V
o
extracellular potential
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V
m,V
i-V
o
approximate transmembrane potential
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S
amplitude of the voltage response to an 8.9% decrease in light intensity
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N
voltage noise, usually measured as root mean square voltage deviation as described in Methods |
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