Dev Growth Differ 1985 Jan 01;273:333-348. doi: 10.1111/j.1440-169X.1985.00333.x.

U.V. Irradiation Inhibits The Electrical Block to Polyspermy in Echinoderms*: (echinoderm eggs/electrical membrane properties/polyspermy/sodium channel/ultra violet irradiation).

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Oocytes of the sea urchin Sphaerechinus granularis and the startish Marthasterias glacialis have been submitted to U.V. irradiation before fertilization. This treatment significantly increased the incidence and severity of polyspermy in the sea urchin and was also found effective on starfish oocytes. These were found more resistant to damage than sea urchin eggs and U.V. irradiation did not affect either their response to the hormone l-methyladenine or the rate of elevation of the fertilization envelope, which assures the late and definitive block to polyspermy. Electrophysiological measurements performed on M. glacialis oocytes definitively demonstrate that U.V. irradiation completely inactivates voltage-dependent sodium channels, without altering the other main conductances, Cl- , K+ or Ca2+ . After such a treatment, the relative permeability of the membrane to Na+ as compared to K+ shifted from 0.019±0.003 to 0.003±0.002 and only the calcium component of the action potentials could be observed. However, a fertilization potential, preceded by small sperm induced steps, is still present in these conditions, although its peak and plateau level are greatly reduced. These new findings are discussed, which confirm the electrical nature of the fast block to polyspermy but question about the specificity of those sperm-gated channels which are supposed to trigger the fertilization potential.

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