Timely translation during the mouse oocyte-to-embryo transition.
Animal, Cell-Cycle-Proteins, Cytoplasm, Female, Fetal-Development, Genes-Reporter, Human, Mice, Mice-Inbred-C57BL, Oocytes, Phosphoproteins, Poly-A, RNA, SUPPORT-NON-U-S-GOVT, SUPPORT-U-S-GOVT-P-H-S, Time-Factors, Translation-Genetic, Xenopus, 3'-Untranslated-Regions
Development 2000 Sep; 127(17):3795-3803.
In the mouse, completion of oocyte maturation and the initiation of preimplantation development occur during transcriptional silence and depend on the presence and translation of stored mRNAs transcribed in the growing oocyte. The Spin gene has three transcripts, each with an identical open reading frame and a different 3' untranslated region (UTR) (Beta)-galactosidase-tagged reporter transcripts containing each of the different Spin 3'UTRs were injected into oocytes and zygotes and (beta)-galactosidase activity was monitored. Results from these experiments suggest that differential polyadenylation and translation occurs at two critical points in the oocyte-to-embryo transition - upon oocyte maturation and fertilization - and is dependent on sequences in the 3'UTR. The stability and mobility shifts of ten other maternal transcripts were monitored by reprobing a northern blot of oocytes and embryos collected at 12 hour intervals after fertilization. Some are more stable than others and the upward mobility shift associated with polyadenylation correlates with the presence of cytoplasmic polyadenylation elements (CPEs) within about 120 nucleotides of the nuclear polyadenylation signal. A survey of the 3' UTRs of expressed sequence tag clusters from a mouse 2-cell stage cDNA library indicates that about one third contain CPEs. We suggest that differential transcript stability and a translational control program can supply the diversity of protein products necessary for oocyte maturation and the initiation of development.
Oh, B; Hwang, S; McLaughlin, J; Solter, D; and Knowles, B B., " Timely translation during the mouse oocyte-to-embryo transition." (2000). Faculty Research 2000 - 2009. 121.