about
Myogenic differentiation 1Bromodomain testis associatedA-kinase anchoring protein 17ARNA binding fox-1 homolog 1Small nuclear ribonucleoprotein U1 subunit 70CDC like kinase 1CDC like kinase 2CDC like kinase 3CDC like kinase 4Zinc finger protein 326Muscleblind like splicing regulator 1Muscleblind like splicing regulator 3Integrator complex subunit 11RNA binding fox-1 homolog 2AF4/FMR2 family member 2AHNAK nucleoproteinAHNAK nucleoprotein 2CUGBP Elav-like family member 1FUS RNA binding proteinMuscleblind like splicing regulator 2Polyglutamine binding protein 1Transformer 2 beta homologRNA-binding motif protein, Y chromosome, family 1 member CRNA binding fox-1 homolog 3SON DNA and RNA binding proteinRNA binding motif protein 20RNA binding motif protein 38Serine/arginine repetitive matrix 4Ribosomal RNA processing 1BEpithelial splicing regulatory protein 2PeriaxinEpithelial splicing regulatory protein 1RNA binding motif protein 17Cyclin dependent kinase 12Serine and arginine rich splicing factor 10Fox-1-like RNA-binding protein 1 isoform DSerine/arginine-rich-splicing factor 10Splicing factor 45RNA-binding protein fox-1 homolog 1Serine/arginine-rich-splicing factor 2
P682
A common RNA recognition motif identified within a defined U1 RNA binding domain of the 70K U1 snRNP proteinMuscleblind proteins regulate alternative splicingInteraction of muscleblind, CUG-BP1 and hnRNP H proteins in DM1-associated aberrant IR splicingThe Clk2 and Clk3 dual-specificity protein kinases regulate the intranuclear distribution of SR proteins and influence pre-mRNA splicingFas-activated serine/threonine phosphoprotein (FAST) is a regulator of alternative splicingInteraction between the human nuclear cap-binding protein complex and hnRNP FFRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structureStructural basis of G-tract recognition and encaging by hnRNP F quasi-RRMsFas-activated serine/threonine kinase (FAST K) synergizes with TIA-1/TIAR proteins to regulate Fas alternative splicingESRP1 and ESRP2 are epithelial cell-type-specific regulators of FGFR2 splicingCdc2-like kinases and DNA topoisomerase I regulate alternative splicing of tissue factor in human endothelial cellsPQBP1, a factor linked to intellectual disability, affects alternative splicing associated with neurite outgrowthDe Novo Mutations in SON Disrupt RNA Splicing of Genes Essential for Brain Development and Metabolism, Causing an Intellectual-Disability SyndromeFUS interacts with nuclear matrix-associated protein SAFB1 as well as Matrin3 to regulate splicing and ligand-mediated transcription
P921
Q14864495-994040A3-2549-4F27-B39F-110D9F5138D3Q21100472-484E23AE-EA99-4C10-AEFA-652FB11E535BQ21105071-7760909F-A2BF-480F-8E92-DADF17108F9BQ21106557-4FC29245-986D-4A84-AF17-281F6D8F8CCAQ21109788-3C1F3910-B7ED-4EE4-B2DB-450CB2766D33Q21109797-0F7BB0FA-3BAA-47B5-9471-1C4DFBA772A9Q21109799-60D3D8EC-367D-4B4B-9344-1409811797B8Q21109800-FAED2EEB-330A-40C1-97CE-1C2A6583026AQ21109831-9DF1F260-FFD0-4AC7-A10F-181D9B697A09Q21110482-01E96CDD-CD65-4E0F-B88E-C7EE8A0AAB97Q21110842-BC099CA1-356D-4425-9A71-81553F33C672Q21110843-C695E638-F95B-4A85-A285-0F4147FF06D6Q21111111-2D832FD0-AF59-4D63-8D67-542F214AFE5CQ21112698-965FDA3F-7BC2-43FE-A3BE-9746F9DF132DQ21116351-9341CFF8-CD92-4C69-8B74-416265C6F0B9Q21116351-937DD79F-9015-41B0-AE0D-A701AFCA74C1Q21116466-C0802B2F-574B-42A7-8BBB-3BF78B918A26Q21116466-CFD8CE99-9005-457E-BA57-1B3E963C6138Q21116473-21D8362A-6AFC-4F87-B205-9192ACD29ADAQ21117196-E6D607F6-39C2-4A58-8E67-F1C3C5F535D7Q21118098-04215AEB-9A89-4B86-9059-9E83823E07B9Q21118682-BF797BDD-268E-4FEC-AF67-766AD37DDE36Q21118929-3C31F824-ADCB-4CD1-A6F7-35B6255D0FEFQ21122214-057D2115-8ABA-4FCD-BC3B-B6452A124A0FQ21122661-C3B71FAA-41C9-4268-A890-D9FA09D12D0AQ21123811-61F46625-8919-45F6-AF50-73C8F47FB440Q21124522-5F6C10FB-B806-47ED-8F17-94A99D53D968Q21125039-7777B449-CF22-4247-9B68-599C456B8E24Q21125048-3BF8018E-8536-49DB-857A-492C16A33311Q21125269-3E1AD511-C5C3-4EA9-90A9-B9060E4C6BDFQ21125269-AF59570E-11E5-40DC-8718-6369F5A1E618Q21127114-D03BC5CB-5D65-47D3-8A68-FB70AD88A0CEQ21130769-55B4CA60-A768-40D4-9B86-75AC61F63B96Q21130966-08957783-2D99-40F3-833F-3F57D90F7141Q21132132-36295A16-5E1D-421D-892C-A0D2BAE5DA4AQ21132492-CACAA50C-2C91-48AC-93FC-29D3CCFA4766Q21132577-13B9173B-8807-4090-8368-C05917DA4BB0Q21134569-2FE76410-D0C0-4943-994F-44A28872D569Q21139194-5568FD95-3582-4FD7-B679-6D7EC81825A7Q21140643-092C05D6-3911-4F5A-908B-F919C0357396
P682
Q24293251-D384D92A-C887-43CB-9C29-0802D454B38DQ24299521-7F20D967-9768-4462-824E-79147974A62BQ24301335-02F31515-FDEB-42BE-8D5B-957D989889B3Q24309525-FE3F7428-8AF4-4A44-88C9-C2FB9FB476D5Q24314362-42140876-0FCE-4E7A-9147-64451E643849Q24314610-C852E1B3-8F4C-4E5B-96F4-2C5857B46559Q24315656-E288AC71-CE26-44D2-834D-1C92EA23E4F2Q24317191-786B157A-1054-44DC-A25A-D9BF96DD4F88Q24321295-9C6BACE5-2F45-4D19-9B2B-9F3AF988302CQ24321530-054CF46F-C2E9-400E-94D8-85EDB3714BDFQ24321827-908F6F00-E461-44A1-A4C8-06A9CC47AAD7Q24337053-68F50E88-8CFD-4956-BFF4-40AA0D1603E8Q29147448-FE409EA2-018A-41C0-8EE2-4CB6749025D4Q37330498-C93C1CB9-D1A4-4B12-8405-EAD32DB7A8ED
P921
description
Any process that modulates the ...... ning sections to form the matu
@en
biologisch proces
@nl
name
regulation of RNA splicing
@en
type
label
regulation of RNA splicing
@en
altLabel
GO:0043484
@en
prefLabel
regulation of RNA splicing
@en
P128
P2888
P686
GO:0043484