Literature DB >> 29741121

When SUMO met splicing.

Berta Pozzi1, Pablo Mammi1, Laureano Bragado1, Luciana E Giono1, Anabella Srebrow1.   

Abstract

Spliceosomal proteins have been revealed as SUMO conjugation targets. Moreover, we have reported that many of these are in a SUMO-conjugated form when bound to a pre-mRNA substrate during a splicing reaction. We demonstrated that SUMOylation of Prp3 (PRPF3), a component of the U4/U6 di-snRNP, is required for U4/U6•U5 tri-snRNP formation and/or recruitment to active spliceosomes. Expanding upon our previous results, we have shown that the splicing factor SRSF1 stimulates SUMO conjugation to several spliceosomal proteins. Given the relevance of the splicing process, as well as the complex and dynamic nature of its governing machinery, the spliceosome, the molecular mechanisms that modulate its function represent an attractive topic of research. We posit that SUMO conjugation could represent a way of modulating spliceosome assembly and thus, splicing efficiency. How cycles of SUMOylation/de-SUMOylation of spliceosomal proteins become integrated throughout the highly choreographed spliceosomal cycle awaits further investigation.

Entities:  

Keywords:  SR proteins; SRSF1; SUMO conjugation; Splicing; post-translational modifications; spliceosome

Mesh:

Substances:

Year:  2018        PMID: 29741121      PMCID: PMC6152442          DOI: 10.1080/15476286.2018.1457936

Source DB:  PubMed          Journal:  RNA Biol        ISSN: 1547-6286            Impact factor:   4.652


  72 in total

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Review 2.  Spliceosome structure and function.

Authors:  Cindy L Will; Reinhard Lührmann
Journal:  Cold Spring Harb Perspect Biol       Date:  2011-07-01       Impact factor: 10.005

3.  RECQ5-dependent SUMOylation of DNA topoisomerase I prevents transcription-associated genome instability.

Authors:  Min Li; Subhash Pokharel; Jiin-Tarng Wang; Xiaohua Xu; Yilun Liu
Journal:  Nat Commun       Date:  2015-04-08       Impact factor: 14.919

Review 4.  Shuttling SR proteins: more than splicing factors.

Authors:  Laure Twyffels; Cyril Gueydan; Véronique Kruys
Journal:  FEBS J       Date:  2011-08-24       Impact factor: 5.542

Review 5.  Evolution of SR protein and hnRNP splicing regulatory factors.

Authors:  Anke Busch; Klemens J Hertel
Journal:  Wiley Interdiscip Rev RNA       Date:  2011-09-02       Impact factor: 9.957

6.  A proteomic analysis of arginine-methylated protein complexes.

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Journal:  Mol Cell Proteomics       Date:  2003-10-07       Impact factor: 5.911

7.  Sumoylation of the THO complex regulates the biogenesis of a subset of mRNPs.

Authors:  Hugo Bretes; Jérôme O Rouviere; Thibaut Leger; Marlene Oeffinger; Frédéric Devaux; Valérie Doye; Benoit Palancade
Journal:  Nucleic Acids Res       Date:  2014-02-05       Impact factor: 16.971

Review 8.  The spliceosome: disorder and dynamics defined.

Authors:  Weijun Chen; Melissa J Moore
Journal:  Curr Opin Struct Biol       Date:  2014-02-14       Impact factor: 6.809

9.  SUMO5, a Novel Poly-SUMO Isoform, Regulates PML Nuclear Bodies.

Authors:  Ya-Chen Liang; Chia-Chin Lee; Ya-Li Yao; Chien-Chen Lai; M Lienhard Schmitz; Wen-Ming Yang
Journal:  Sci Rep       Date:  2016-05-23       Impact factor: 4.379

10.  RNA polymerase II stalling at pre-mRNA splice sites is enforced by ubiquitination of the catalytic subunit.

Authors:  Laura Milligan; Camille Sayou; Alex Tuck; Tatsiana Auchynnikava; Jane Ea Reid; Ross Alexander; Flavia de Lima Alves; Robin Allshire; Christos Spanos; Juri Rappsilber; Jean D Beggs; Grzegorz Kudla; David Tollervey
Journal:  Elife       Date:  2017-10-13       Impact factor: 8.140
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  9 in total

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2.  KDM3A regulates alternative splicing of cell-cycle genes following DNA damage.

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Journal:  RNA       Date:  2021-07-28       Impact factor: 4.942

3.  Prognostic potential of PRPF3 in hepatocellular carcinoma.

Authors:  Yinlan Liu; Yuhan Yang; Yan Luo; Juan Wang; Xiangyun Lu; Zongxing Yang; Jin Yang
Journal:  Aging (Albany NY)       Date:  2020-01-11       Impact factor: 5.682

4.  Tumor suppressor SMAR1 regulates PKM alternative splicing by HDAC6-mediated deacetylation of PTBP1.

Authors:  Arpankumar Choksi; Apoorva Parulekar; Richa Pant; Vibhuti Kumar Shah; Ramakrishna Nimma; Priyanka Firmal; Smriti Singh; Gopal C Kundu; Sanjeev Shukla; Samit Chattopadhyay
Journal:  Cancer Metab       Date:  2021-04-16

5.  SUMOylation Regulates TDP-43 Splicing Activity and Nucleocytoplasmic Distribution.

Authors:  AnnaMaria Maraschi; Valentina Gumina; Jessica Dragotto; Claudia Colombrita; Miguel Mompeán; Emanuele Buratti; Vincenzo Silani; Marco Feligioni; Antonia Ratti
Journal:  Mol Neurobiol       Date:  2021-08-14       Impact factor: 5.590

Review 6.  Coordination of RNA Processing Regulation by Signal Transduction Pathways.

Authors:  Veronica Ruta; Vittoria Pagliarini; Claudio Sette
Journal:  Biomolecules       Date:  2021-10-07

Review 7.  Relevance and Regulation of Alternative Splicing in Plant Heat Stress Response: Current Understanding and Future Directions.

Authors:  Remus R E Rosenkranz; Sarah Ullrich; Karin Löchli; Stefan Simm; Sotirios Fragkostefanakis
Journal:  Front Plant Sci       Date:  2022-06-23       Impact factor: 6.627

8.  LncRNA DACH1 protects against pulmonary fibrosis by binding to SRSF1 to suppress CTNNB1 accumulation.

Authors:  Jian Sun; Tongzhu Jin; Zhihui Niu; Jiayu Guo; Yingying Guo; Ruoxuan Yang; Qianqian Wang; Huiying Gao; Yuhan Zhang; Tianyu Li; Wenxin He; Zhixin Li; Wenchao Ma; Wei Su; Liangliang Li; Xingxing Fan; Hongli Shan; Haihai Liang
Journal:  Acta Pharm Sin B       Date:  2022-04-16       Impact factor: 14.903

9.  Exploring the multifunctionality of SR proteins.

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Journal:  Biochem Soc Trans       Date:  2022-02-28       Impact factor: 4.919
  9 in total

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