Gita Gajjar, Hayden P Huggins, Eun Suk Kim, Weihua Huang, Frederic X Bonnet, Dustin L Updike, Brett D Keiper
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引用次数: 0
Abstract
We studied translation factor eukaryotic initiation factor 4E (eIF4E) paralogs that regulate germline mRNAs. Translational control of mRNAs is essential for germ cell differentiation and embryogenesis. Messenger ribonucleoprotein complexes assemble on mRNAs in the nucleus, as they exit via perinuclear germ granules, and in the cytoplasm. Bound messenger ribonucleoproteins including eIF4E exert both positive and negative posttranscriptional regulation. In Caenorhabditiselegans, germ granules are surprisingly dynamic messenger ribonucleoprotein condensates that remodel during development. Two eIF4E paralogs (IFE-1 and IFE-3), their cognate eIF4E-interacting proteins, and polyadenylated mRNAs are present in germ granules. Affinity purification of IFE-1 and IFE-3 messenger ribonucleoproteins allowed mass spectrometry and mRNA-Seq to identify other proteins and the mRNAs that populate stable eukaryotic initiation factor 4E complexes. We find translationally repressed mRNAs (e.g. pos-1, mex-3, spn-4, etc.) enriched with IFE-3, but excluded from IFE-1. Identified mRNAs overlap substantially with mRNAs previously described to be IFE-1 dependent for translation. The findings suggest that oocytes and embryos utilize the 2 eukaryotic initiation factor 4E paralogs for opposite purposes on critically regulated germline mRNAs. Sublocalization within adult perinuclear germ granules suggests an architecture in which Vasa/GLH-1, PGL-1, and the IFEs are stratified, which may facilitate sequential remodeling of messenger ribonucleoproteins leaving the nucleus. Biochemical composition of isolated messenger ribonucleoproteins indicates opposing yet cooperative roles for the 2 eukaryotic initiation factor 4E paralogs. We propose that the IFEs accompany controlled mRNAs in the repressed or activated state during transit to the cytoplasm. Copurification of IFE-1 with IFE-3 suggests they may interact to move repressed mRNAs to ribosomes.
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GENETICS is published by the Genetics Society of America, a scholarly society that seeks to deepen our understanding of the living world by advancing our understanding of genetics. Since 1916, GENETICS has published high-quality, original research presenting novel findings bearing on genetics and genomics. The journal publishes empirical studies of organisms ranging from microbes to humans, as well as theoretical work.
While it has an illustrious history, GENETICS has changed along with the communities it serves: it is not your mentor''s journal.
The editors make decisions quickly – in around 30 days – without sacrificing the excellence and scholarship for which the journal has long been known. GENETICS is a peer reviewed, peer-edited journal, with an international reach and increasing visibility and impact. All editorial decisions are made through collaboration of at least two editors who are practicing scientists.
GENETICS is constantly innovating: expanded types of content include Reviews, Commentary (current issues of interest to geneticists), Perspectives (historical), Primers (to introduce primary literature into the classroom), Toolbox Reviews, plus YeastBook, FlyBook, and WormBook (coming spring 2016). For particularly time-sensitive results, we publish Communications. As part of our mission to serve our communities, we''ve published thematic collections, including Genomic Selection, Multiparental Populations, Mouse Collaborative Cross, and the Genetics of Sex.
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