A temporal study at the ultrastructural level of the developing pro-oocyte of Drosophila melanogaster.

Abstract

The first pro-oocyte in developing pupal germaria of females grown at 25 ° has been followed at 6 h intervals from its formation at ∼129 h post-ovipostion until Stage 1, to provide an unambiguous temporal order. EM autoradiographs were made of sectioned germaria, scanned at lower magnification for location of the pro-oocyte(s) within the most posterior 16-cell cyst and photographed at higher magnification to show the presence of label indicating DNA replication and synaptonemal complex indicating synapsis in the same pro-oocyte nucleus. Label, detected at 132 h and at all subsequent intervals up to and including 162 h, delimited an S-phase of 30 h and identified this period as premeiotic interphase. Extensive SCs (av. length 50 μm/genome) measured in serial sections at 132 h provide irrefutable evidence that synapsis in Drosophila begins close to both pro-oocyte formation and initiation of premeiotic interphase. Measurements of SCs at 6 h intervals during interphase reveal a sharp increase between 132 and 138 h, a peak length (∼75 μm/genome) at 144 h, a decrease and subsequent plateau (∼ 60 μm/genome) from 150–162 h and a further drop (R~50 μm/genome) at Stage 1. Maximal extension of SC at 144 h coincides with maximal genome response to heat (Grell and Day, 1974) and with midpremeiotic-S. Spherical nodules, detected at ∼ 1/genome between 138 and 150 h would, on the questionable assumption that they are the sites of recombination, provide proof of recombination during early interphase, as genetic evidence strongly implies. Evidence contrary to interpretations of fibrillar material within the nucleus as either precursor of the central region of the SC or sagittal sections of the central element of the SC, is presented. No structure corresponding to the polytene chromocenter was observed.