Biophysical Journal 15: 281-286 (1975)
© 1975 the Biophysical Society

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45Ca and (14C)EDTA efflux from dialyzed barnacle muscle fibers.

ABSTRACT

45Ca and 14C-labeled ethylenediamine-N, N'-tetraacetic acid (EDTA) effluxes were measured in internally dialyzed barnacle muscle fibers. In 45Ca experiments the internal ionized 45Ca was fixed at 0.2 muM with ethyleneglycolbis-(beta-aminoethylether)-N, N'-tetraacetic acid(EGTA). The 45Ca efflux was found to increase with internal CaEGTA from 0.05 pmol/cm2.s(CaEGTA equal to 0.02 mM) to 5.0 pmol/cm2.s(CaEGTAequal to 9.6 mM). To determine whether or not most of this increase in efflux was due to the exit of undissociated CaEGTA, comparable experiments were performed with Ca-[14-C]EDTA. Over the same range of internal calcium as studied in the 45Ca experiments, the Ca-[14-C]EDTA efflux was no more than 12% of the 45Ca efflux. We conclude that the exit of undissociated 45Ca cannot account for most of the 45Ca efflux nor can it account for the dependence of 45Ca efflux on internal CaEGTA. The experiments also demonstrated the existence of an endogenous pool of calcium, of 0.43 mmol/kg (about half the total calcium), which remained unexchanged during dialysis.