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Abrupt decline in the rate of accumulation of total protein and yolk in postvitellogenic egg chambers ofDrosophila

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Summary

The accumulation of endogenously synthesized non-yolk proteins, and of exogenously derived yolk, was quantitated during oogenesis and embryogenesis ofDrosophila. Rates of non-yolk protein accumulation were calculated, and were correlated with polysome content at each developmental stage. Three distinct phases of non-yolk protein accumulation were observed: 1) relatively slow accumulation, lasting to stage 9 of oogenesis; 2) very rapid accumulation between stages 10 and 12 of oogenesis, when half of the protein of the mature egg is accumulated in less than 4 h; and 3) no further protein accumulation from stage 12 of oogenesis through at least the gastrula stage of embryogenesis. During phases 1 and 2, rates of non-yolk protein accumulation correlate well with the polysome content of egg chambers. Surprisingly, during the entire phase 3 the content of polysomes remains at high levels, even though no detectable protein accumulation occurs. This finding is in agreement with the low levels of protein synthesis that have been measured during early embryogenesis, and strongly suggests that late in oogenesis the efficiency of translation suddenly drops by about 20-fold. Moreover, our results imply that polysome content cannot always be directly correlated with protein synthetic activity.

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References

  • Anderson KV, Lengyel JA (1979) Rates of synthesis of major classes of RNA inDrosophila embryos. Devel Biol 70:217–231

    Google Scholar 

  • Bownes M (1975) A photographic study of development in the living embryo ofDrosophila melanogaster. J Embryol Exp Morphol 33:789–801

    Google Scholar 

  • Bownes M, Hames BD (1977) Accumulation and degradation of three major yolk proteins inDrosophila melanogaster. J Exp Zool 200:149–156

    Google Scholar 

  • Brennan MD, Weiner AJ, Goralski TJ, Mahowald AP (1982) The follicle cells are a major site of vitellogenin synthesis inDrosophila melanogaster. Dev Biol 89:225–236

    Google Scholar 

  • David J, Merle J (1968) A re-evaluation of the duration of egg chamber stages in oogenesis ofDrosophila melanogaster. Drosophila Information Service 43:122–123

    Google Scholar 

  • Fargnoli J, Waring GL (1982) Identification of vitelline membrane proteins inDrosophila melanogaster. Dev Biol 92:306–314

    Google Scholar 

  • Giorgi F (1976) Ultrastructural observations on the degenerating nurse cells of late ovarian chambers ofDrosophila melanogaster. Acta Embryol Exp 2:225–236

    Google Scholar 

  • Jacob J, Sirlin JL (1959) Cell function in the ovary ofDrosophila I. DNA. Chromosoma 10:210–228

    Google Scholar 

  • Jacobs-Lorena M, Crippa M (1977) Mass fractionation ofDrosophila egg chambers. Dev Biol 57:385–392

    Google Scholar 

  • Kambysellis MP (1977) Genetic and hormonal regulation of vitellogenesis inDrosophila. Am Zool 17:535–549

    Google Scholar 

  • King RC (1970) “Ovarian development in Drosophila melanogaster”. Academic Press, New York

    Google Scholar 

  • King RC, Burnett RG (1959) Autoradiographic study of uptake of3H glycine, thymidine, and uridine by fruitfly ovaries. Science 129:1674–1675

    Google Scholar 

  • King RC, Vanoucek EG (1960) Oogenesis in adultDrosophila melanogaster IX. studies on the behavior of the follicle cells. Growth 24:333–338

    Google Scholar 

  • Kuo C-H, Garen A (1978) Analysis of the coding activity and stability of mRNA in Drosophila oocytes. Dev Biol 67:237–242

    Google Scholar 

  • Laemmli UK (1970) Cleavage of structural proteins during assembly of the bacteriophage T4. Nature 227:680–685

    Google Scholar 

  • Lowry OH, Rosebrough NJ, Farr AL, Randall RJ (1951) Protein measurement with the Folin phenol reagent. J Biol Chem 193:265–275

    Google Scholar 

  • Loyd TE, Raff E, Raff R (1981) Site and timing of synthesis of tubulin and other proteins during oogenesis inDrosophila melanogaster. Dev Biol 86:272–284

    Google Scholar 

  • Mahowald AP (1972) Ultrastructural observations on oogenesis inDrosophila melanogaster. J Morphol 137:29–48

    Google Scholar 

  • Mcknight SL, Miller OL (1976) Ultrastructural patterns of RNA synthesis during early embryogenesis ofDrosophila melanogaster. Cell 8:305–319

    Google Scholar 

  • Mermod JJ, Crippa M (1978) Variations in the amount of polysomes inDrosophila melanogaster. Dev Biol 66:586–592

    Google Scholar 

  • Mermod JJ, Jacobs-Lorena M, Crippa M (1977) Changes in rate of RNA synthesis and in ribosomal gene number during oogenesis ofDrosophila melanogaster. Dev Biol 57:393–402

    Google Scholar 

  • Mindrinos MN, Petri WH, Galanopoulos VK, Lombard MF, Margaritus LH (1980) Crosslinking of theDrosophila chorion involves a peroxidase. Wilhelm Roux's Arch 189:187–196

    Google Scholar 

  • Peterson GL (1977) A simplification of the assay method of Lowry et al. which is more generally applicable. Anal Biochem 83:346–356

    Google Scholar 

  • Petri WH, Wyman AR, Kafatos FC (1976) Specific protein synthesis in cellular differentiation. III. the egg shell proteins ofDrosophila melanogaster and their program of synthesis. Dev Biol 49:185–199

    Google Scholar 

  • Robb JA (1969) Maintainance of imaginal discs ofDrosophila melanogaster in chemically defined media. J Cell Biol 41:876–885

    Google Scholar 

  • Santon JB, Pellegrini M (1981) Rates of ribosomal protein and total protein synthesis duringDrosophila early embryogenesis. Dev Biol 85:252–257

    Google Scholar 

  • Savoini A, Micali F, Marzari R, de Cristini F, Graziosi G (1981) Low variability of the protein species synthesized byDrosophila melanogaster embryos. Wilhelm Roux's Arch 190:161–167

    Google Scholar 

  • Spradling AC, Mahowald AP (1979) Identification and genetic localization of mRNAs from ovarian follicle cells ofDrosophila melanogaster. Cell 16:589–598

    Google Scholar 

  • Waring GL, Mahowald AP (1979) Identification and time of synthesis of chorion proteins inDrosophila melanogaster. Cell 16:599–607

    Google Scholar 

  • Warren TG, Mahowald AP (1979) Isolation and partial chemical characterization of the three major yolk polypeptides fromDrosophila melanogaster. Dev Biol 68:130–139

    Google Scholar 

  • Zalokar M (1960) Sites of ribonucleic acid and protein synthesis inDrosophila. Exp Cell Res 19:184–186

    Google Scholar 

  • Zalokar M, Erk I (1976) Division and migration of nuclei during early embryogenesis ofDrosophila melanogaster. J Microsc Biol Cell 25:97–106

    Google Scholar 

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Authors and Affiliations

  1. Department of Anatomy and Developmental Biology Center, School of Medicine, Case Western Reserve University, 2119 Abington Road, 44106, Cleveland, OH, USA

    Alanna Ruddell & Marcelo Jacobs-Lorena

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  1. Alanna Ruddell
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  2. Marcelo Jacobs-Lorena
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Ruddell, A., Jacobs-Lorena, M. Abrupt decline in the rate of accumulation of total protein and yolk in postvitellogenic egg chambers ofDrosophila . Wilhelm Roux' Archiv 192, 189–195 (1983). https://doi.org/10.1007/BF00848689

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  • DOI: https://doi.org/10.1007/BF00848689

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