Fertilized and unfertilized C57BL/6J eggs were microsurgically enucleated and then analyzed for their capacity to synthesize proteins using 2-dimensional polyacrylamide gel electrophoresis. In both types of enucleated eggs (cytoplasts), protein synthesis continued and was still detected up to three days in culture. Shortly after enucleation, the pattern of polypeptides remained similar to the respective non-operated control eggs but it later became gradually reduced in intensity and complexity. After two days of culture the appearance of some new proteins typical for 2-cell embryos was observed in enucleated fertilized eggs only. Our findings suggest that maternal mRNA stored during oogenesis is utilized during the preimplantation period.
Day-6 rabbit blastocysts were cultured in Ham's F10 medium supplemented with polyvinylpyrrolidone as a macromolecular component, for 4 to 12 h. The integrity of the blastocyst cells was demonstrated by electron microscopy. Expansion and biosynthesis of proteins and of DNA were studied after culturing in the presence of 35S-methionine and 3H-thymidine. Polyvinylpyrrolidone did not interfere with the subsequent protein analysis, which was performed by two dimensional gel electrophoresis followed by silver staining and fluorography. More than 600 labelled proteins were found in the blastocyst tissue, many of them were also present in the blastocyst fluid and in the blastocyst coverings. Several proteins seemed to be produced for incorporation into the blastocyst coverings; others, only detected in the culture medium, might have been synthesized for secretion into the environment.
In preimplantation stages of normal and spontaneously activated parthenogenetic embryos of the LT/Sv mouse strain, protein synthesis was analyzed by using two-dimensional polyacrylamide gel electrophoresis. Fertilization and parthenogenetic activation cause similar changes polypeptide synthesis when compared with those of unfertilized eggs. The overt developmental delay of early parthenotes, which is probably due to an initial retarded activation in comparison with normal fertilization, is documented molecularly by a similar delay in their protein synthesis pattern. These differences are clearly visible at the two-cell stage but gradually disappear during further cleavage. The basic protein patterns of normal and parthenogenetic embryos are remarkably similar up to the blastocyst stage. However, quantitative differences occur in all preimplantation embryos analyzed and become more distinct at the blastocyst stage. In addition, only minor qualitative changes appear during late preimplantation. These alterations in protein synthesis may reflect at the molecular level early events in abnormal development of parthenotes. Our biochemical results are discussed in context with biological experiments rescuing parthenogenetic LT/Sv embryos by chimera formation.
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