pubmed:abstractText |
1. Recessed-tip Na(+)-sensitive micro-electrodes were used to measure [Na(+)](i) continuously in snail neurones for experiments lasting up to several hours. The average resting [Na(+)](i) in twenty-two cells was 3.6 mM.2. Inhibition of the Na pump by ouabain caused [Na(+)](i) to increase at an average rate of 0.54 m-mole/min. This corresponds to a passive influx of Na quantitatively similar to that observed in squid axons.3. Changing external K over the range 1-8 mM had little effect on [Na(+)](i), but K-free or 0.25 mM-K Ringer caused a rise in [Na(+)](i).4. Increasing membrane potential by up to 90 mV caused an increased influx of Na, but did not inhibit the pump.5. Reducing external Na caused a decrease in [Na(+)](i) but did not affect the pump rate at a given [Na(+)](i). The pump rate at low [Na(+)](i) was proportional to [Na(+)](i) minus a threshold value of about 1 mM.6. The Na pump appeared still to be electrogenic at subnormal rates of activity.7. It is concluded that, given sufficient external K, the rate of the Na pump depends principally on [Na(+)](i). Changes in external Na or membrane potential appear to affect the pump only indirectly, by changing the Na influx and thus [Na(+)](i).
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