Vitellogenic ovarian follicles of Drosophila exhibit a charge-dependent distribution of endogenous soluble proteins.

In ovarian follicles of Drosophila, soluble endogenous charged proteins are asymmetrically distributed dependent upon their ionic charge. Reversal of the normal ionic difference across the intercellular bridges which connect nurse cells to their oocyte results in a redistribution of these proteins. Twelve soluble endogenous acidic proteins were identified by 2-D gel electrophoresis as being present in both oocytes and nurse cells in samples run on four or more gels. Of these, following osmotically induced reversal of the electrical transbridge gradient the concentration of seven proteins decreased in the oocyte while nurse cell concentrations of all twelve proteins increased. Of seven basic proteins analyzed, following reversal of the electrical gradient the concentration of all seven increased in oocytes. Four of these decreased in nurse cells, while nurse cell concentrations of the remaining three basic proteins also appeared to decrease, but yielded spots too faint for measurement. Data presented here demonstrate that, as in the Saturniidae, the ionic gradient across the nurse cell-oocyte intercellular bridges of the dipteran, Drosophila, can influence the distribution of soluble endogenous charged molecules.