Literature DB >> 17055983

Cap-dependent translational inhibition establishes two opposing morphogen gradients in Drosophila embryos.

Park F Cho1, Chiara Gamberi, Yoon Andrew Cho-Park, Ian B Cho-Park, Paul Lasko, Nahum Sonenberg.   

Abstract

In the early Drosophila embryo, asymmetric distribution of transcription factors, established as a consequence of translational control of their maternally derived mRNAs, initiates pattern formation . For instance, translation of the uniformly distributed maternal hunchback (hb) mRNA is inhibited at the posterior to form an anterior-to-posterior protein concentration gradient along the longitudinal axis . Inhibition of hb mRNA translation requires an mRNP complex (the NRE complex), which consists of Nanos (Nos), Pumilio (Pum), and Brain tumor (Brat) proteins, and the Nos responsive element (NRE) present in the 3' UTR of hb mRNA . The identity of the mRNA 5' effector protein that is responsible for this translational inhibition remained elusive. Here we show that d4EHP, a cap binding protein that represses caudal (cad) mRNA translation , also inhibits hb mRNA translation by interacting simultaneously with the mRNA 5' cap structure (m(7)GpppN, where N is any nucleotide) and Brat. Thus, by regulating Cad and Hb expression, d4EHP plays a key role in establishing anterior-posterior axis polarity in the Drosophila embryo.

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Year:  2006        PMID: 17055983      PMCID: PMC2238800          DOI: 10.1016/j.cub.2006.08.093

Source DB:  PubMed          Journal:  Curr Biol        ISSN: 0960-9822            Impact factor:   10.834


  23 in total

1.  Drosophila Brain Tumor is a translational repressor.

Authors:  J Sonoda; R P Wharton
Journal:  Genes Dev       Date:  2001-03-15       Impact factor: 11.361

2.  Capping of eucaryotic mRNAs.

Authors:  A J Shatkin
Journal:  Cell       Date:  1976-12       Impact factor: 41.582

3.  Bruno acts as a dual repressor of oskar translation, promoting mRNA oligomerization and formation of silencing particles.

Authors:  Marina Chekulaeva; Matthias W Hentze; Anne Ephrussi
Journal:  Cell       Date:  2006-02-10       Impact factor: 41.582

4.  Recruitment of Nanos to hunchback mRNA by Pumilio.

Authors:  J Sonoda; R P Wharton
Journal:  Genes Dev       Date:  1999-10-15       Impact factor: 11.361

5.  Poly(A)-independent regulation of maternal hunchback translation in the Drosophila embryo.

Authors:  D Chagnovich; R Lehmann
Journal:  Proc Natl Acad Sci U S A       Date:  2001-09-18       Impact factor: 11.205

Review 6.  Translational regulation and RNA localization in Drosophila oocytes and embryos.

Authors:  O Johnstone; P Lasko
Journal:  Annu Rev Genet       Date:  2001       Impact factor: 16.830

7.  Translational repression by a novel partner of human poly(A) binding protein, Paip2.

Authors:  K Khaleghpour; Y V Svitkin; A W Craig; C T DeMaria; R C Deo; S K Burley; N Sonenberg
Journal:  Mol Cell       Date:  2001-01       Impact factor: 17.970

8.  Model of the brain tumor-Pumilio translation repressor complex.

Authors:  Thomas A Edwards; Brian D Wilkinson; Robin P Wharton; Aneel K Aggarwal
Journal:  Genes Dev       Date:  2003-10-15       Impact factor: 11.361

9.  hunchback, a gene required for segmentation of an anterior and posterior region of the Drosophila embryo.

Authors:  R Lehmann; C Nüsslein-Volhard
Journal:  Dev Biol       Date:  1987-02       Impact factor: 3.582

Review 10.  Molecular mechanisms of translational control.

Authors:  Fátima Gebauer; Matthias W Hentze
Journal:  Nat Rev Mol Cell Biol       Date:  2004-10       Impact factor: 94.444
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  73 in total

1.  A C. elegans eIF4E-family member upregulates translation at elevated temperatures of mRNAs encoding MSH-5 and other meiotic crossover proteins.

Authors:  Anren Song; Sara Labella; Nadejda L Korneeva; Brett D Keiper; Eric J Aamodt; Monique Zetka; Robert E Rhoads
Journal:  J Cell Sci       Date:  2010-06-08       Impact factor: 5.285

2.  Versatility of the translational machinery during stress: changing partners to keep dancing.

Authors:  Fátima Gebauer
Journal:  Cell Res       Date:  2012-07-03       Impact factor: 25.617

Review 3.  Cytoplasmic RNA-binding proteins and the control of complex brain function.

Authors:  Jennifer C Darnell; Joel D Richter
Journal:  Cold Spring Harb Perspect Biol       Date:  2012-08-01       Impact factor: 10.005

4.  Subunits of the Drosophila CCR4-NOT complex and their roles in mRNA deadenylation.

Authors:  Claudia Temme; Lianbing Zhang; Elisabeth Kremmer; Christian Ihling; Aymeric Chartier; Andrea Sinz; Martine Simonelig; Elmar Wahle
Journal:  RNA       Date:  2010-05-26       Impact factor: 4.942

5.  Drosophila Pumilio protein contains multiple autonomous repression domains that regulate mRNAs independently of Nanos and brain tumor.

Authors:  Chase A Weidmann; Aaron C Goldstrohm
Journal:  Mol Cell Biol       Date:  2011-11-07       Impact factor: 4.272

6.  Translational control of meiotic cell cycle progression and spermatid differentiation in male germ cells by a novel eIF4G homolog.

Authors:  Catherine C Baker; Margaret T Fuller
Journal:  Development       Date:  2007-07-04       Impact factor: 6.868

Review 7.  Regulation of translation initiation in eukaryotes: mechanisms and biological targets.

Authors:  Nahum Sonenberg; Alan G Hinnebusch
Journal:  Cell       Date:  2009-02-20       Impact factor: 41.582

Review 8.  eIF4E: new family members, new binding partners, new roles.

Authors:  Robert E Rhoads
Journal:  J Biol Chem       Date:  2009-02-23       Impact factor: 5.157

Review 9.  Nanos genes and their role in development and beyond.

Authors:  Evi De Keuckelaere; Paco Hulpiau; Yvan Saeys; Geert Berx; Frans van Roy
Journal:  Cell Mol Life Sci       Date:  2018-02-03       Impact factor: 9.261

10.  Vasa promotes Drosophila germline stem cell differentiation by activating mei-P26 translation by directly interacting with a (U)-rich motif in its 3' UTR.

Authors:  Niankun Liu; Hong Han; Paul Lasko
Journal:  Genes Dev       Date:  2009-12-01       Impact factor: 11.361
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