mRNA processing (Caenorhabditis elegans)

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U2AFFormation of the Spliceosomal E complexU4 snRNPYYYYU1 snRNPCF IIheterogeneous nuclear ribonucleoproteins3YYYYexon 1RNAi pathwayAdditional FactorsRegulatorsexon 1U23snRNP Sm core complex5Poly(A)pb IIFormation of pre-mRNPsP-Formation of the Spliceosomal B complexU6 snRNPApre-mRNAU5 snRNPCFIU2 snRNPexon 1APutative Alternative Splicingexon 1U2AFPolr2aUGSR-binding sitesU5SR-binding sitesAGInternal methylation of mRNAGUexon 1AGInternal methylation of mRNA3mRNA splicing (major pathway)355splicing factor SF3ARNA helicaseexon 165U4/U6exon 2U2 snRNPexon 2exon 25AProcessing of Intron-Containing Pre-mRNASR-proteinsYYYYAdditional SR proteinsAlternative SplicingmRNA splice site selectionYYYYU6iPoCstFUGU4:U5:U6 tri-snRNP complex35Regulation of553AsnRNP Sm core complexAdditional FactorsCF IYYYYFormation of the active Spliceosomal C complexAGAAAAAAAU2 snRNPs3U1Serine/Argenine Rich Proteins(SR)U55AGU4exon 2Formation of pre-mRNPsASR protein kinasesdegradedCap BindingmRNA CappingFormation of the Spliceosomal A complexPoly(A)-binding protein IIexon 2Poly(A) polymerase alphaYYYYFormation of the Spliceosomal A complex5intronhnRNPsGMPPoly(A) polPi53Methylation of mRNAAGNote: New participating members shown at each step5 G capCF II3RNA helicase ASF3b14b3exon 2Rnmt (methyltransferase)Accessory ProteinsAPrimary RNA transcriptmRNA cappingsplicing factor SF3BSpt53U1 snRNPFormation of the Spliceosomal B complexhnRNP regulatorssnRNP Sm core complexFormation of the Spliceosomal E complex5SR-proteinsAGFormation of the Spliceosomal C complexSF3B4PTBP2SF3B5unc-75bath-43F28C1.1rsp-1HRMT1L1dcr-1C44B7.2TXNL4Asnr-3METTL3T13H5.4FUSIP1rnp-2HNRPCSFRS5prp-21ama-1SNRPNFNBP3prp-8snr-4F58B3.7Y59A8B.6dnj-30NONOC25A1.4PCBP2rsp-4nxf-1tag-72phf-5prp-17mog-1F11A10.2gut-2prp-17pab-3etr-1F56D2.6gut-2Y73B6BL.33F47G9.1F37E3.1U4 snRNAspt-5teg-1Y67H2A.1snr-6CUGBP2HNRPA1F09G2.4rnp-7cpf-2DDX20RBMXHNRPABtag-203snr-5SSFA1NCBP2HNRPKY76B12C.7uaf-1hrp-2Rnu6cpf-1HNRPH2cel-1F08G12.2SFRS9sap-1rsp-7SF4U5 snRNAprp-8T08A11.2F59A2.4mog-5ptb-1HNRPDtag-172W03F9.10CLK4CLK3mog-4rsp-2Y113G7B.17SNRPNC36B1.5C27H5.3lsm-7NSEP1rnp-3M03C11.7SSFA1rsp-6SFRS3prp-4F43G9.5HNRPA2B1rha-1CSTF2C36B1.5him-1T08B2.5RNU2SNRPBY55F3AM.3F43G6.5snr-7SFRS10HNRPA3P1rsr-1snr-1SFRS14U1 snRNACLK1Y48B6A.3suf-1rsp-3Y55F3BR.1F11A10.8eft-1


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

Comments

GenMAPP notes 
Gene lists from obtained from InterPro 9-23-2003: Mm_RNA-binding region RNP-1 (RNA recognition motif)
GenMAPP remarks 
Adapted from http://www.reactome.org.

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Bibliography

  1. Zahler, A. M.; ''Pre-mRNA splicing and its regulation in Caenorhabditis elegans''; WormBook, ed. The C. elegans Research Community, WormBook, doi/10.1895/wormbook.1.31.2, 2012 DOI Scholia

History

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CompareRevisionActionTimeUserComment
125266view13:03, 31 January 2023LarsgwAdd DOI to publication
122783view23:27, 17 May 2022AlexanderPicocleaning up broken comments
118541view11:23, 28 May 2021DeSlAdded lit. ref.
118426view14:25, 27 May 2021Fehrhartconverted graphical lines
118419view14:20, 27 May 2021Fehrhartconverted graphical lines
71848view20:09, 18 October 2013MaintBotremoved data source from nodes without identifier
69960view20:58, 11 July 2013MaintBotupdating to 2013 schema
67495view11:09, 26 June 2013DdiglesOntology Term : 'spliceosome pathway' added !
40645view19:58, 1 March 2011MaintBotRemoved redundant pathway information and comments
35240view19:45, 11 February 2010KhanspersModified description
20941view11:30, 14 November 2008MaintBot[[Pathway:Caenorhabditis elegans:mRNA processing Reactome]] moved to [[Pathway:WP123]]: Moved to stable identifier
8507view14:01, 7 January 2008MaintBotAdded to category $category
8505view14:01, 7 January 2008NsalomonisUploaded new pathway

External references

DataNodes

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NameTypeDatabase referenceComment
C25A1.4GeneProduct172881 (Entrez Gene)
C27H5.3GeneProduct174175 (Entrez Gene)
C36B1.5GeneProduct183250 (Entrez Gene)
C44B7.2GeneProduct3565706 (Entrez Gene)
CLK1GeneProductPMID: 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.
CLK3GeneProduct
CLK4GeneProduct
CSTF2GeneProduct
CUGBP2GeneProduct
DDX20GeneProduct
F08G12.2GeneProduct181319 (Entrez Gene)
F09G2.4GeneProduct179103 (Entrez Gene)
F11A10.2GeneProduct178147 (Entrez Gene)
F11A10.8GeneProduct178151 (Entrez Gene)
F28C1.1GeneProduct179705 (Entrez Gene)
F37E3.1GeneProduct172345 (Entrez Gene)
F43G6.5GeneProduct174816 (Entrez Gene)
F43G9.5GeneProduct172657 (Entrez Gene)
F47G9.1GeneProduct179567 (Entrez Gene)
F56D2.6GeneProduct175771 (Entrez Gene)
F58B3.7GeneProduct178091 (Entrez Gene)
F59A2.4GeneProduct175442 (Entrez Gene)
FNBP3GeneProduct
FUSIP1GeneProduct
HNRPA1GeneProduct
HNRPA2B1GeneProduct
HNRPA3P1GeneProduct
HNRPABGeneProduct
HNRPCGeneProduct
HNRPDGeneProduct
HNRPH2GeneProduct
HNRPKGeneProduct
HRMT1L1GeneProduct
M03C11.7GeneProduct176461 (Entrez Gene)
METTL3GeneProduct
NCBP2GeneProduct
NONOGeneProduct
NSEP1GeneProduct
PCBP2GeneProduct
PTBP2GeneProduct
RBMXGeneProduct
RNU2GeneProductGenBank sequence: K00027
Rnu6GeneProductGenBank sequence: M10329
SF3B4GeneProduct
SF3B5GeneProduct
SF4GeneProductinferred from: SURP 2, G patch protein, UniProt:O60378
SFRS10GeneProduct
SFRS14GeneProduct
SFRS3GeneProduct
SFRS5GeneProduct
SFRS9GeneProductPMID: 12738786, PMID: 12024014 (associated with hnRNP A1 splicing)
SNRPBGeneProduct
SNRPNGeneProduct
SSFA1GeneProduct
T08A11.2GeneProduct175549 (Entrez Gene)
T08B2.5GeneProduct172312 (Entrez Gene)
T13H5.4GeneProduct174364 (Entrez Gene)
TXNL4AGeneProduct
U1 snRNAGeneProductGenBank sequence: J00645
U4 snRNAGeneProductGenBank sequence: M10328, M18004
U5 snRNAGeneProductGenBank sequence: AB021173
W03F9.10GeneProduct178542 (Entrez Gene)
Y113G7B.17GeneProduct180326 (Entrez Gene)
Y48B6A.3GeneProduct175071 (Entrez Gene)
Y55F3AM.3GeneProduct176922 (Entrez Gene)
Y55F3BR.1GeneProduct176913 (Entrez Gene)
Y59A8B.6GeneProduct180180 (Entrez Gene)
Y67H2A.1GeneProduct178285 (Entrez Gene)
Y73B6BL.33GeneProduct177398 (Entrez Gene)
Y76B12C.7GeneProduct177003 (Entrez Gene)
ama-1GeneProduct177190 (Entrez Gene)
bath-43GeneProduct176422 (Entrez Gene)
cel-1GeneProduct172814 (Entrez Gene)
cpf-1GeneProduct174378 (Entrez Gene)
cpf-2GeneProduct176742 (Entrez Gene)
dcr-1GeneProduct176138 (Entrez Gene)
dnj-30GeneProduct171833 (Entrez Gene)
eft-1GeneProduct175851 (Entrez Gene)
etr-1GeneProduct173401 (Entrez Gene)
gut-2GeneProduct179833 (Entrez Gene)
him-1GeneProduct172116 (Entrez Gene)
hrp-2GeneProduct173086 (Entrez Gene)
lsm-7GeneProduct177988 (Entrez Gene)
mog-1GeneProduct176409 (Entrez Gene)
mog-4GeneProduct175117 (Entrez Gene)
mog-5GeneProduct173920 (Entrez Gene)
nxf-1GeneProduct191736 (Entrez Gene)
pab-3GeneProduct172768 (Entrez Gene)
phf-5GeneProduct3564851 (Entrez Gene)
prp-17GeneProduct172999 (Entrez Gene)
prp-21GeneProduct173440 (Entrez Gene)
prp-4GeneProduct172443 (Entrez Gene)
prp-8GeneProduct176153 (Entrez Gene)
ptb-1GeneProduct174647 (Entrez Gene)
rha-1GeneProduct174417 (Entrez Gene)
rnp-2GeneProduct177181 (Entrez Gene)
rnp-3GeneProduct177182 (Entrez Gene)
rnp-7GeneProduct176002 (Entrez Gene)
rsp-1GeneProduct174748 (Entrez Gene)
rsp-2GeneProduct174747 (Entrez Gene)
rsp-3GeneProduct176688 (Entrez Gene) Antagonist splicing factor
rsp-4GeneProduct173915 (Entrez Gene)
rsp-6GeneProduct177566 (Entrez Gene)
rsp-7GeneProduct174646 (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.
rsr-1GeneProduct173013 (Entrez Gene)
sap-1GeneProduct173767 (Entrez Gene)
snr-1GeneProduct178483 (Entrez Gene)
snr-3GeneProduct174072 (Entrez Gene)
snr-4GeneProduct179639 (Entrez Gene)
snr-5GeneProduct176103 (Entrez Gene)
snr-6GeneProduct176668 (Entrez Gene)
snr-7GeneProduct171834 (Entrez Gene)
spt-5GeneProduct178143 (Entrez Gene)
suf-1GeneProduct174380 (Entrez Gene)
tag-172GeneProduct3565068 (Entrez Gene)
tag-203GeneProduct172406 (Entrez Gene)
tag-72GeneProduct182875 (Entrez Gene)
teg-1GeneProduct176561 (Entrez Gene)
uaf-1GeneProduct175270 (Entrez Gene)
unc-75GeneProduct182722 (Entrez Gene)

Annotated Interactions

No annotated interactions
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