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      Intranuclear binding in space and time of exon junction complex and NXF1 to premRNPs/mRNPs in vivo

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          Abstract

          The exon junction core complex associates with Balbiani ring (BR) premRNPs during transcription and in relation to splicing, whereas the export factor NXF1 is recruited in the interchromatin, and BR mRNPs become export competent only after passage through the interchromatin.

          Abstract

          Eukaryotic gene expression requires the ordered association of numerous factors with precursor messenger RNAs (premRNAs)/messenger RNAs (mRNAs) to achieve efficiency and regulation. Here, we use the Balbiani ring (BR) genes to demonstrate the temporal and spatial association of the exon junction complex (EJC) core with gene-specific endogenous premRNAs and mRNAs. The EJC core components bind cotranscriptionally to BR premRNAs during or very rapidly after splicing. The EJC core does not recruit the nonsense-mediated decay mediaters UPF2 and UPF3 until the BR messenger RNA protein complexes (mRNPs) enter the interchromatin. Even though several known adapters for the export factor NXF1 become part of BR mRNPs already at the gene, NXF1 binds to BR mRNPs only in the interchromatin. In steady state, a subset of the BR mRNPs in the interchromatin binds NXF1, UPF2, and UPF3. This binding appears to occur stochastically, and the efficiency approximately equals synthesis and export of the BR mRNPs. Our data provide unique in vivo information on how export competent eukaryotic mRNPs are formed.

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          A comprehensive set of sequence analysis programs for the VAX.

          John Devereux, Paul E. Haeberli, Oliver Smithies (1984)
          The University of Wisconsin Genetics Computer Group (UWGCG) has been organized to develop computational tools for the analysis and publication of biological sequence data. A group of programs that will interact with each other has been developed for the Digital Equipment Corporation VAX computer using the VMS operating system. The programs available and the conditions for transfer are described.
          Article 0 comments Cited 638 times – based on 0 reviews     Review now
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            Regulation of splicing by SR proteins and SR protein-specific kinases.

            Xiang Fu, Zhihong Zhou (2013)
            Genomic sequencing reveals similar but limited numbers of protein-coding genes in different genomes, which begs the question of how organismal diversities are generated. Alternative pre-mRNA splicing, a widespread phenomenon in higher eukaryotic genomes, is thought to provide a mechanism to increase the complexity of the proteome and introduce additional layers for regulating gene expression in different cell types and during development. Among a large number of factors implicated in the splicing regulation are the SR protein family of splicing factors and SR protein-specific kinases. Here, we summarize the rules for SR proteins to function as splicing regulators, which depend on where they bind in exons versus intronic regions, on alternative exons versus flanking competing exons, and on cooperative as well as competitive binding between different SR protein family members on many of those locations. We review the importance of cycles of SR protein phosphorylation/dephosphorylation in the splicing reaction with emphasis on the recent molecular insight into the role of SR protein phosphorylation in early steps of spliceosome assembly. Finally, we highlight recent discoveries of SR protein-specific kinases in transducing growth signals to regulate alternative splicing in the nucleus and the connection of both SR proteins and SR protein kinases to human diseases, particularly cancer.
            Article 0 comments Cited 163 times – based on 0 reviews     Review now
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              Human Upf proteins target an mRNA for nonsense-mediated decay when bound downstream of a termination codon.

              M Shu, J Lykke, J Steitz (2000)
              Nonsense-mediated decay (NMD) rids eukaryotic cells of aberrant mRNAs containing premature termination codons. These are discriminated from true termination codons by downstream cis-elements, such as exon-exon junctions. We describe three novel human proteins involved in NMD, hUpf2, hUpf3a, and hUpf3b. While in HeLa cell extracts these proteins are complexed with hUpf1, in intact cells hUpf3a and hUpf3b are nucleocytoplasmic shuttling proteins, hUpf2 is perinuclear, and hUpf1 cytoplasmic. hUpf3a and hUpf3b associate selectively with spliced beta-globin mRNA in vivo, and tethering of any hUpf protein to the 3'UTR of beta-globin mRNA elicits NMD. These data suggest that assembly of a dynamic hUpf complex initiates in the nucleus at mRNA exon-exon junctions and triggers NMD in the cytoplasm when recognized downstream of a translation termination site.
              Article 0 comments Cited 145 times – based on 0 reviews     Review now
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                Author and article information

                Journal
                Journal ID (nlm-ta): J Cell Biol
                Journal ID (iso-abbrev): J. Cell Biol
                Journal ID (publisher-id): jcb
                Journal ID (hwp): jcb
                Title: The Journal of Cell Biology
                Publisher: The Rockefeller University Press
                ISSN (Print): 0021-9525
                ISSN (Electronic): 1540-8140
                Publication date (Print): 12 October 2015
                Volume: 211
                Issue: 1
                Pages: 63-75
                Affiliations
                [1 ]Department of Molecular Biosciences, The Wenner-Gren Institute, Stockholm University, SE-106 91 Stockholm, Sweden
                [2 ]Department of Mathematics, Stockholm University, SE-106 91 Stockholm, Sweden
                Author notes
                Correspondence to Lars Wieslander: Lars.Wieslander@ 123456su.se
                Article
                Publisher ID: 201412017
                DOI: 10.1083/jcb.201412017
                PMC ID: 4602041
                PubMed ID: 26459599
                SO-VID: 32427de1-4805-4b84-9aa3-b0828293be1c
                Copyright © © 2015 Bjork et al.
                License:

                This article is distributed under the terms of an Attribution–Noncommercial–Share Alike–No Mirror Sites license for the first six months after the publication date (see http://www.rupress.org/terms). After six months it is available under a Creative Commons License (Attribution–Noncommercial–Share Alike 3.0 Unported license, as described at http://creativecommons.org/licenses/by-nc-sa/3.0/).

                History
                Date received : 03 December 2014
                Date accepted : 26 August 2015
                Categories
                Subject: Research Articles
                Subject: Article

                ScienceOpen disciplines: Cell biology
                Data availability:
                ScienceOpen disciplines: Cell biology

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