mRNA Processing (Pan troglodytes)

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1AAUAAAsplicing factor SF3AsnRNP Sm core complex5SR-kinasesSR protein kinases5Formation of the Spliceosomal A complexU2AFpre-mRNA(2a)AU1 snRNP5UGSR-repressor proteinsCstFSR-binding sitesmRNA CappingU1CA3U2(2b)GUsnRNP Sm core complexRegulation ofAlternative SplicingKinases Phosphorylating RS domains?U4/U6snRNP Sm core complexU2 snRNP5Formation of the active Spliceosomal C complexU5(3)Formation of the Spliceosomal E complex3Formation of the Spliceosomal B complexSF3b14bAGSR-proteinsMisc.heterogeneous nuclear ribonucleoproteinsProcessing of Intron-Containing Pre-mRNACap BindingFormation of the Spliceosomal B complexACPSFAdditional SR proteinsFormation of the Spliceosomal C complex35Primary RNA transcriptAdditional Factorsexon 23U2AFright click on blue text for detailed informationPoly(A) polRNA helicaseRngtt (capping enzyme)U2 snRNP5UGAPARNAi pathwaymRNA polyadenylation33CF IPoly(A)-binding protein IIAGRNA helicase A(2)splicesome associated helicasesCFILariat Formation and 5'-Splice Site Cleavage3U4P-SR-phosphatasesU6 snRNPCF IICleavage of mRNA at the 3'-endU2 snRNPsPiexon 1Accessory Proteins5Serine/Argenine Rich Proteins(SR)Formation of the Spliceosomal A complexiPoAdditional Factorsexon 2exon 1U4:U5:U6 tri-snRNP complexU4 snRNPhnRNPsmRNA 3'-end processingPutative Alternative SplicingRegulatorsPolr2a5U6SR-proteins3SR-binding sitesAPoly(A)pb IIdegradedSR protein phosphataseshnRNP regulatorsPoly(A) polymerase alphaAAAAAAAexon 1mRNA splicing (major pathway)YYYY5exon 1YYYYU5 snRNP5AGYYYY65AGmRNA cappingAGYYYY3CPSF(1)intronFormation of pre-mRNPs3Spt5AGexon 2U1 snRNPYYYYexon 1exon 25YYYYSR-proteinsexon 2ANote: New participating members shown at each step5 G capCstFexon 1exon 2splicing factor SF3BFormation of pre-mRNPsInternal methylation of mRNACF IIRnmt (methyltransferase)Additional FactorsFormation of the Spliceosomal E complexInternal methylation of mRNAmRNA splice site selectionMethylation of mRNA(2c)Cleavage at the 3'-Splice-Site and Exon Ligation335U5DDX20CPSF4HNRNPA2B1NUDT21NCBP2SNRPNEFTUD2LOC746119RBM5PTBP2PRPF4SF3B3CPSF1CDC40SRPK1SRSF7PRPF40APOLR2ACPSF3PRPF4SRRM1HNRNPDTRA2BDNAJC8RNGTTCSTF2TSNRPB2U2AF1SUPT5HSNRPD3PCBP2SNRPGSRP54U4 snRNASMC1L1FUSIP1RBMXNCBP1HNRNPLRNPS1SRSF9HRMT1L2RNMTDICER1LSM7TXNL4ASF3B2XRN2CSTF1FUSIP1PRPF8CLK2CLASRPPTBP1CELF2TMED10CLK4SFPQHNRNPMSNRPNSRSF6RBM17SRSF3LOC451173LSM2SF3B5PRPF6SNRPD2PRPF8SREK1CLK3SNRPBPPM1GCPSF2DHX8SRSF5HNRPA3P1PSKH1GMPNONOHNRNPRU1 snRNASNRPASNRPFNXF1LOC470311ATPDDX1SNRNP40SNRPEDHX9U2AF2CSTF2SUGP2PABPN1PRMT2SF3A1SNRNP70SRSF1PAPOLASRSF4SSFA1CDC40SNRPA1CSTF3PHF5ALOC467947HNRNPH2SNRPD1PRPF4BU5 snRNAHNRNPKHNRNPABHNRNPH1SFSWAPFUSCLK1SPOPHNRNPCSSFA1SUGP1DHX16PRPF18HEABDHX38LSM2PRPF3RNU2Rnu6SF3A3METTL3SF3A2CELF4RBM39HNRNPUSSFA1DHX15SF3B1SRSF2SRPK2SF3B4


Description

This process describes the conversion of precursor messenger RNA into mature messenger RNA (mRNA).

The pre-mRNA molecule undergoes three main modifications. These modifications are 5' capping, 3' polyadenylation, and RNA splicing, which occur in the cell nucleus before the RNA is translated.

5' Capping: Capping of the pre-mRNA involves the addition of 7-methylguanosine (m7G) to the 5' end. The cap protects the 5' end of the primary RNA transcript from attack by ribonucleases that have specificity to the 3'5' phosphodiester bonds.

3' Processing: The pre-mRNA processing at the 3' end of the RNA molecule involves cleavage of its 3' end and then the addition of about 200 adenine residues to form a poly(A) tail. As the poly(A) tails is synthesised, it binds multiple copies of poly(A) binding protein, which protects the 3'end from ribonuclease digestion.

Splicing: RNA splicing is the process by which introns, regions of RNA that do not code for protein, are removed from the pre-mRNA and the remaining exons connected to re-form a single continuous molecule.

Description adapted from Wikipedia: http://en.wikipedia.org/wiki/Post-transcriptional_modification

Pathway adapted from http://www.reactome.org.

Comments

HomologyConvert 
This pathway was inferred from Homo sapiens pathway WP411(r45374) with a 86% conversion rate.

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Ontology Terms

 

Bibliography

  1. Carmody SR, Wente SR; ''mRNA nuclear export at a glance.''; J Cell Sci, 2009 PubMed Europe PMC Scholia

History

View all...
CompareRevisionActionTimeUserComment
95768view14:20, 19 January 2018MkutmonHomology conversion update
71696view19:42, 17 October 2013MaintBotAutomated update of data sources
69321view18:44, 8 July 2013MaintBotUpdated to 2013 gpml schema
67502view11:10, 26 June 2013DdiglesOntology Term : 'spliceosome pathway' added !
48173view20:36, 9 May 2012MaintBotUpdating from human to fix xrefs
41631view02:03, 2 March 2011MaintBotRemoved redundant pathway information and comments
35271view20:26, 11 February 2010KhanspersAdded xrefs for GMP and ATP
35268view20:22, 11 February 2010KhanspersModified description
34358view22:25, 9 December 2009MaintBotAutomatic update of empty xrefs
33565view09:45, 1 December 2009MaintBotRemoved group label
31591view22:05, 13 August 2009MaintBotFixed text labels
30475view21:33, 29 July 2009MaintBotNew pathway

External references

DataNodes

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NameTypeDatabase referenceComment
ATPMetabolite1927-31-7 (CAS)
CDC40GeneProduct462936 (Entrez Gene)
CELF2GeneProduct450298 (Entrez Gene)
CELF4GeneProduct455382 (Entrez Gene)
CLASRPGeneProduct456120 (Entrez Gene)
CLK1GeneProduct459865 (Entrez Gene) PMID: 15010457: Inhibitor John C. Bell, PhD

Professor, Depts. of Medicine and Biochemistry, Microbiology & Immunology University of Ottawa Career Scientist, Ottawa Regional Cancer Centre Associate Scientist, The Ottawa Hospital Research Institute Telephone: 613-737-7700 ext 6893 Fax: 613-247-3524 Email: [email protected] The control of pre-mRNA splicing by the Clk kinase family

We are studying a family of kinases which we believe provide an interface between intracellular signaling networks and the post-transcriptional mechanism of mRNA splicing. We are performing a structure:function analysis of the three Clk family members to identify domains in the three proteins which are involved in regulating splicing. Using homologous recombination we are generating null strains of mice which are lacking one, two or all three Clk genes. The Clk kinases all possess dual specificity kinase activity and yeast expression systems are being used to produce large amounts of the kinase to perform a detailed analysis of the sites of serine, threonine and tyrosine autophosphorylation within the kinase.
CLK2GeneProduct457364 (Entrez Gene)
CLK3GeneProduct453742 (Entrez Gene)
CLK4GeneProduct471811 (Entrez Gene)
CPSF1GeneProduct
CPSF2GeneProduct738846 (Entrez Gene)
CPSF3GeneProduct459017 (Entrez Gene)
CPSF4GeneProduct463572 (Entrez Gene)
CSTF1GeneProduct100610308 (Entrez Gene)
CSTF2GeneProduct473699 (Entrez Gene)
CSTF2TGeneProduct450463 (Entrez Gene)
CSTF3GeneProduct451108 (Entrez Gene)
DDX1GeneProduct459042 (Entrez Gene)
DDX20GeneProduct457107 (Entrez Gene)
DHX15GeneProduct461142 (Entrez Gene)
DHX16GeneProduct462546 (Entrez Gene)
DHX38GeneProduct454237 (Entrez Gene)
DHX8GeneProduct740465 (Entrez Gene)
DHX9GeneProduct457568 (Entrez Gene)
DICER1GeneProduct453137 (Entrez Gene)
DNAJC8GeneProduct469250 (Entrez Gene)
EFTUD2GeneProduct454738 (Entrez Gene)
FUSGeneProduct742385 (Entrez Gene)
FUSIP1GeneProductFUSI MOUSE PMID: 11684676
GMPMetabolite85-32-5 (CAS)
HEABGeneProduct
HNRNPA2B1GeneProduct463299 (Entrez Gene)
HNRNPABGeneProduct462319 (Entrez Gene)
HNRNPCGeneProduct465214 (Entrez Gene)
HNRNPDGeneProduct461216 (Entrez Gene)
HNRNPH1GeneProduct462329 (Entrez Gene)
HNRNPH2GeneProduct465762 (Entrez Gene)
HNRNPKGeneProduct464554 (Entrez Gene)
HNRNPLGeneProduct456012 (Entrez Gene)
HNRNPMGeneProduct455671 (Entrez Gene)
HNRNPRGeneProduct456615 (Entrez Gene)
HNRNPUGeneProduct457867 (Entrez Gene)
HNRPA3P1GeneProduct
HRMT1L2GeneProduct
LOC451173GeneProduct451173 (Entrez Gene)
LOC467947GeneProduct467947 (Entrez Gene)
LOC470311GeneProduct470311 (Entrez Gene)
LOC746119GeneProduct746119 (Entrez Gene)
LSM2GeneProduct462569 (Entrez Gene)
LSM7GeneProduct455572 (Entrez Gene)
METTL3GeneProduct452765 (Entrez Gene)
NCBP1GeneProduct464601 (Entrez Gene)
NCBP2GeneProduct460966 (Entrez Gene)
NONOGeneProduct473661 (Entrez Gene)
NUDT21GeneProduct454100 (Entrez Gene)
NXF1GeneProduct451267 (Entrez Gene)
PABPN1GeneProduct452797 (Entrez Gene)
PAPOLAGeneProduct100614622 (Entrez Gene)
PCBP2GeneProduct467006 (Entrez Gene)
PHF5AGeneProduct745456 (Entrez Gene)
POLR2AGeneProduct454463 (Entrez Gene)
PPM1GGeneProduct470340 (Entrez Gene) PMID: 12773558
PRMT2GeneProduct458620 (Entrez Gene)
PRPF18GeneProduct736885 (Entrez Gene)
PRPF3GeneProduct457272 (Entrez Gene)
PRPF40AGeneProduct459664 (Entrez Gene)
PRPF4GeneProduct464671 (Entrez Gene)
PRPF4BGeneProduct462406 (Entrez Gene)
PRPF6GeneProduct458425 (Entrez Gene)
PRPF8GeneProduct468374 (Entrez Gene)
PSKH1GeneProduct468116 (Entrez Gene) PMID: 12466556
PTBP1GeneProduct749887 (Entrez Gene)
PTBP2GeneProduct457046 (Entrez Gene)
RBM17GeneProduct450286 (Entrez Gene)
RBM39GeneProduct458443 (Entrez Gene)
RBM5GeneProduct744612 (Entrez Gene)
RBMXGeneProduct738482 (Entrez Gene)
RNGTTGeneProduct462878 (Entrez Gene)
RNMTGeneProduct455501 (Entrez Gene)
RNPS1GeneProduct750086 (Entrez Gene) PMID: 14729963
RNU2GeneProductGenBank sequence: K00027
Rnu6RnaGenBank sequence: M10329
SF3A1GeneProduct458750 (Entrez Gene)
SF3A2GeneProduct455568 (Entrez Gene)
SF3A3GeneProduct745795 (Entrez Gene)
SF3B1GeneProduct459850 (Entrez Gene)
SF3B2GeneProduct451343 (Entrez Gene)
SF3B3GeneProduct454216 (Entrez Gene)
SF3B4GeneProduct457265 (Entrez Gene)
SF3B5GeneProduct748026 (Entrez Gene)
SFPQGeneProduct
SFSWAPGeneProduct452374 (Entrez Gene)
SMC1L1GeneProduct
SNRNP40GeneProduct470976 (Entrez Gene)
SNRNP70GeneProduct747202 (Entrez Gene)
SNRPA1GeneProduct453692 (Entrez Gene)
SNRPAGeneProduct456047 (Entrez Gene)
SNRPB2GeneProduct458105 (Entrez Gene)
SNRPBGeneProduct470014 (Entrez Gene)
SNRPD1GeneProduct455329 (Entrez Gene)
SNRPD2GeneProduct456134 (Entrez Gene)
SNRPD3GeneProduct
SNRPEGeneProduct741566 (Entrez Gene)
SNRPFGeneProduct
SNRPGGeneProduct736959 (Entrez Gene)
SNRPNGeneProduct
SPOPGeneProduct455106 (Entrez Gene)
SREK1GeneProduct461839 (Entrez Gene) PMID: 14559993. SRrp86 is a unique member of the SR protein superfamily containing one RNA recognition motif and two serine-arginine (SR)-rich domains separated by an unusual glutamic acid-lysine (EK)-rich region. Previously, we showed that SRrp86 could regulate alternative splicing by both positively and negatively modulating the activity of other SR proteins and that the unique EK domain could inhibit both constitutive and alternative splicing. These functions were most consistent with the model in which SRrp86 functions by interacting with and thereby modulating the activity of target proteins. To identify the specific proteins that interact with SRrp86, we used a yeast two-hybrid library screen and immunoprecipitation coupled to mass spectrometry. We show that SRrp86 interacts with all of the core SR proteins, as well as a subset of other splicing regulatory proteins, including SAF-B, hnRNP G, YB-1, and p72. In contrast to previous results that showed activation of SRp20 by SRrp86, we now show that SAF-B, hnRNP G, and 9G8 all antagonize the activity of SRrp86. Overall, we conclude that not only does SRrp86 regulate SR protein activity but that it is, in turn, regulated by other splicing factors to control alternative splice site selection.
SRP54GeneProduct452858 (Entrez Gene) PMID: 14729963
SRPK1GeneProduct462640 (Entrez Gene) PMID: 12773558
SRPK2GeneProduct463641 (Entrez Gene) PMID: 12773558
SRRM1GeneProduct456632 (Entrez Gene)
SRSF1GeneProduct468417 (Entrez Gene) Antagonist splicing factor
SRSF2GeneProduct619467 (Entrez Gene)
SRSF3GeneProduct747921 (Entrez Gene)
SRSF4GeneProduct740597 (Entrez Gene)
SRSF5GeneProduct453000 (Entrez Gene)
SRSF6GeneProduct469946 (Entrez Gene)
SRSF7GeneProduct459167 (Entrez Gene)
SRSF9GeneProduct742440 (Entrez Gene) PMID: 12738786, PMID: 12024014 (associated with hnRNP A1 splicing)
SSFA1GeneProduct
SUGP1GeneProduct455874 (Entrez Gene) inferred from: SURP 2, G patch protein, UniProt:O60378
SUGP2GeneProduct468774 (Entrez Gene)
SUPT5HGeneProduct456024 (Entrez Gene)
TMED10GeneProduct453045 (Entrez Gene)
TRA2BGeneProduct460905 (Entrez Gene)
TXNL4AGeneProduct
U1 snRNARnaGenBank sequence: J00645
U2AF1GeneProduct737227 (Entrez Gene)
U2AF2GeneProduct
U4 snRNARnaGenBank sequence: M10328, M18004
U5 snRNARnaGenBank sequence: AB021173
XRN2GeneProduct458131 (Entrez Gene)

Annotated Interactions

No annotated interactions
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