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Date and Time | 2007-11-20 13:30:00 - 14:30:00 |
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Venue | Auditorium C1F |
Speaker | Howard D.Lipshitz
Department of Molecular & Medical Genetics, University of Toronto & Research Institute, The Hospital for Sick Children, Toronto, Canada |
Title | POST-TRANSCRIPTIONAL REGULATION DURING EARLY DROSOPHILA DEVELOPMENT |
Poster | click here to download (PDF) |
Host | Shigeo Hayashi |
Summary | mRNAs representing over half of all the protein-coding genes in Drosophila are loaded into the oocyte during oogenesis. A third of these transcripts are eliminated by the midblastula transition two-and-a-half hours after fertilization. Transcript destabilization is triggered by the PAN GU kinase, which directs translation of smaug mRNA. The SMAUG RNA-binding protein, in turn, destabilizes a large fraction of these unstable maternal mRNAs by recruiting the CCR4/POP2/NOT deadenylase complex, leading to transcript deadenylation and decay. A subset of the unstable mRNAs is protected from degradation in the posterior cytoplasm, from which the germ cells bud. Cis-elements for both degradation and protection have been mapped using a combination of experimental and computational methods. In addition to its role in transcript destabilization, SMAUG represses the translation of a subset of its target mRNAs in the bulk cytoplasm but not in the germ plasm. Certain posterior-protected mRNAs are localized, not just within the germ cells, but also in the apical cytoplasm of the somatic cells that underlie them. These mRNAs colocalize with SMAUG in 'S-bodies'. Several lines of evidence suggest that S-bodies are distinct from P-bodies and that S-bodies serve as subcellular sites of translational regulation to ensure that the posterior cells maintain somatic characteristics despite inheriting a subset of the germ plasm. |