Abstract

Protein synthetic patterns during oogenesis in Drosophila melanogaster were examined; in particular the site, time, and rate of tubulin synthesis and accumulation during oogenesis were determined. Ovarian proteins were labeled with [35S]methionine in vivo or in organ culure in vitro, and the proteins synthesized in egg chambers of specific developmental stages displayed by two-dimensional gel electrophoresis. A dissection technique was devised to examine proteins synthesized in each of the three cell types present in stage 10B egg chambers. The majority of proteins which were resolved by two-dimensional gel electrophoresis, including tubulin and actin, were synthesized throughout oogenesis and, at least to some extent, in each of the stage 10B cell types. Protein synthesis specific to developmental stage and/or cell type was also observed; for example, two nonchorion proteins were synthesized only in follicle cells and primarily at stage 10. A sensitive and specific radioimmune assay was developed in order to quantitate tubulin accumulation. Synthesis of several α-tubulin subunits and one β-tubulin subunit was observed. The tubulin content per egg chamber increased from 3 ng in stage 9 to 17 ng in stage 14, a period of about 13 hr. An accumulation rate of 1 ng/hr suggests that tubulin mRNA can account for about 4% of the total, nonmitochondrial, poly(A)+ RNA of the egg. Analysis of separated cell types at stage 10B revealed that both the follicle and nurse cells synthesize and accumulate appreciable amounts of tubulin. The stage 10B oocyte contains relatively little tubulin but actively synthesizes it. These two complementary analyses demonstrate that the tubulin present in the egg is synthesized within the oocyte-nurse cell syncytium, first in the nurse cells and later in the oocyte.

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