The Influence of Yolk Protein Proteolysis on Hydration in the Oocytes of Fundulus heteroclitus: (oocyte hydration/meiotic maturation/proteolysis/yolk proteins/teleost).

Abstract

Growth in oocytes of many marine teleosts can be attributed to a combination of yolk accumulation during the vitellogenic phase of development and water uptake during meiotic maturation. In the salt marsh fish, Fundulus heteroclitus, hydration associated with maturation gives rise to a greater than two-fold increase in oocyte volume. It has been proposed that a concurrent proteolysis of specific yolk proteins may be the mechanism driving this water uptake. To test this hypothesis, we used various in vitro culture techniques to block or significantly reduce oocyte hydration while allowing meiotic maturation to continue, then examined yolk proteins by SDS-polyacrylamide gel electrophoresis. We were able to dissociate yolk proteolysis from both hydration and nuclear maturation stimulated by a maturation-inducing steroid, 17α-hydroxy- 20β-dihydroprogesterone. It therefore appears that the proteolysis of specific yolk proteins observed in maturing oocytes of marine teleosts is an independent developmental event, and is not directly involved in the hydration mechanism.