Smaug, a novel and conserved protein, contributes to repression of nanos mRNA translation in vitro

CRAIG A. SMIBERT; YUNG S. LIE; WENDY SHILLINGLAW; WILLIAM J. HENZEL; PAUL M. MACDONALD

doi:10.1017/S1355838299991392

Abstract

Proper deployment of Nanos protein at the posterior of the Drosophila embryo, where it directs posterior development, requires a combination of RNA localization and translational controls. These controls ensure that only the posteriorly-localized nanos mRNA is translated, whereas unlocalized nanos mRNA is translationally repressed. Here we describe cloning of the gene encoding Smaug, an RNA-binding protein that interacts with the sequences, SREs, in the nanos mRNA that mediate translational repression. Using an in vitro translation assay, we demonstrate that SRE-dependent repression occurs in extracts from early stage embryos. Immunodepletion of Smaug from the extracts eliminates repression, consistent with the notion that Smaug is involved. Smaug is a novel gene and the existence of potential mammalian Smaug homologs raises the possibility that Smaug represents a new class of conserved translational repressor.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Clark, Ira E. Wyckoff, David and Gavis, Elizabeth R. 2000. Synthesis of the posterior determinant Nanos is spatially restricted by a novel cotranslational regulatory mechanism. Current Biology, Vol. 10, Issue. 20, p. 1311.

Lie, Yung S. and Macdonald, Paul M. 2000. In Vitro Translation Extracts Prepared from Drosophila Ovaries and Embryos. Biochemical and Biophysical Research Communications, Vol. 270, Issue. 2, p. 473.

Boccaccio, Graciela L. 2000. Targeting of mRNAs within the glial cell cytoplasm: How to hide the message along the journey. Journal of Neuroscience Research, Vol. 62, Issue. 4, p. 473.

Wylie, Chris 2000. Germ cells. Current Opinion in Genetics & Development, Vol. 10, Issue. 4, p. 410.

Wilhelm, James E. Vale, Ronald D. and Hegde, Ramanujan S. 2000. Coordinate control of translation and localization of Vg1 mRNA in Xenopus oocytes . Proceedings of the National Academy of Sciences, Vol. 97, Issue. 24, p. 13132.

Crucs, Susan Chatterjee, Seema and Gavis, Elizabeth R. 2000. Overlapping but Distinct RNA Elements Control Repression and Activation of nanos Translation. Molecular Cell, Vol. 5, Issue. 3, p. 457.

Lipshitz, Howard D and Smibert, Craig A 2000. Mechanisms of RNA localization and translational regulation. Current Opinion in Genetics & Development, Vol. 10, Issue. 5, p. 476.

Palacios, Isabel M. and Johnston, Daniel St. 2001. Getting the Message Across: The Intracellular Localization of mRNAs in Higher Eukaryotes. Annual Review of Cell and Developmental Biology, Vol. 17, Issue. 1, p. 569.

Edwards, Thomas A Pyle, Scott E Wharton, Robin P and Aggarwal, Aneel K 2001. Structure of Pumilio Reveals Similarity between RNA and Peptide Binding Motifs. Cell, Vol. 105, Issue. 2, p. 281.

Johnstone, Oona and Lasko, Paul 2001. Translational Regulation and RNA Localization in Drosophila Oocytes and Embryos. Annual Review of Genetics, Vol. 35, Issue. 1, p. 365.

Nakamura, Akira Amikura, Reiko Hanyu, Kazuko and Kobayashi, Satoru 2001. Me31B silences translation of oocyte-localizing RNAs through the formation of cytoplasmic RNP complex duringDrosophilaoogenesis. Development, Vol. 128, Issue. 17, p. 3233.

Riechmann, Veit and Ephrussi, Anne 2001. Axis formation during Drosophila oogenesis. Current Opinion in Genetics & Development, Vol. 11, Issue. 4, p. 374.

Macdonald, Paul 2001. Diversity in translational regulation. Current Opinion in Cell Biology, Vol. 13, Issue. 3, p. 326.

Krøvel, Anne Vatland and Olsen, Lisbeth Charlotte 2002. Expression of a vas::EGFP transgene in primordial germ cells of the zebrafish. Mechanisms of Development, Vol. 116, Issue. 1-2, p. 141.

Green, Justin B. Edwards, Thomas A. Trincao, Jose Escalante, Carlos R. Wharton, Robin P. and Aggarwal, Aneel K. 2002. Crystallization and characterization of Smaug: a novel RNA-binding motif. Biochemical and Biophysical Research Communications, Vol. 297, Issue. 5, p. 1085.

Bergamini, Giovanna and Gebauer, Fátima 2002. Cell-Free Translation Systems. p. 79.

Clark, Ira E. Dobi, Krista C. Duchow, Heather K. Vlasak, Anna N. and Gavis, Elizabeth R. 2002. A common translational control mechanism functions in axial patterning and neuroendocrine signaling inDrosophila. Development, Vol. 129, Issue. 14, p. 3325.

Kang, Dongmin Pilon, Marc and Weisblat, David A. 2002. Maternal and Zygotic Expression of a nanos-Class Gene in the Leech Helobdella robusta: Primordial Germ Cells Arise from Segmental Mesoderm. Developmental Biology, Vol. 245, Issue. 1, p. 28.

Dean, Kellie A Aggarwal, Aneel K and Wharton, Robin P 2002. Translational repressors in Drosophila. Trends in Genetics, Vol. 18, Issue. 11, p. 572.

Kloc, Malgorzata Zearfoss, N.Ruth and Etkin, Laurence D. 2002. Mechanisms of Subcellular mRNA Localization. Cell, Vol. 108, Issue. 4, p. 533.

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Smaug, a novel and conserved protein, contributes to repression of nanos mRNA translation in vitro

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Smaug, a novel and conserved protein, contributes to repression of nanos mRNA translation in vitro

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