about
Period circadian clock 2Heterogeneous nuclear ribonucleoprotein A1TARBP2 subunit of RISC loading complexLSM1 homolog, mRNA degradation associatedCUGBP Elav-like family member 2CUGBP Elav-like family member 3CUGBP Elav-like family member 5CUGBP Elav-like family member 1CUGBP Elav-like family member 4Transformer 2 beta homologRNA binding motif protein 22Polypyrimidine tract binding protein 1Polypyrimidine tract binding protein 2Serine and arginine rich splicing factor 2Serine and arginine rich splicing factor 6DEAD-box helicase 5Heterogeneous nuclear ribonucleoprotein UPolypyrimidine tract binding protein 2Probable ATP-dependent RNA helicase DDX5CUGBP, Elav-like family member 4CUGBP, Elav-like family member 2Serine and arginine-rich splicing factor 2Heterogeneous nuclear ribonucleoprotein ULSM1 homolog, mRNA degradation associatedTransformer 2 betaPolypyrimidine tract-binding protein 1RNA binding motif protein 22RNA binding motif protein 4Serine and arginine-rich splicing factor 6Ecm2p YBR065CCleavage polyadenylation factor subunit MPE1 YKL059CNab6p YML117WMrn1p YPL184CCwc2p YDL209CSerine and arginine rich splicing factor 2RNA binding motif protein 22Serine and arginine rich splicing factor 6DEAD-box helicase 5LSM1 homolog, mRNA degradation associatedTransformer 2 Dmel_CG10128
P680
The CELF family of RNA binding proteins is implicated in cell-specific and developmentally regulated alternative splicingSRp55 is a regulator of calcitonin/CGRP alternative RNA splicingRNA helicase p68 (DDX5) regulates tau exon 10 splicing by modulating a stem-loop structure at the 5' splice siteA pre-mRNA-associating factor links endogenous siRNAs to chromatin regulationNuclear matrix factor hnRNP U/SAF-A exerts a global control of alternative splicing by regulating U2 snRNP maturation.
P921
Q15323263-9CF5C4D7-0FD4-442D-B7FC-6808AE8600ABQ16252262-873FD5EF-7B49-495A-A2DE-817F9DA444A5Q21111253-C5ED3170-09C4-486E-878C-0F931CB07163Q21112385-693C742F-B40E-44EC-8CA9-3D54BE8F85D2Q21117177-6B164D0F-7F93-4041-BFC4-1A0FED4338CBQ21117189-2F548EE1-7C8C-4A27-88E2-B0B1B1E397AAQ21117193-24BD91C6-B910-4A92-9F59-98880FFBEF53Q21117196-017D180E-D4DA-48D0-8CCF-117D4BE983BCQ21117203-BBFDB770-9B90-4DFE-883F-CF965DE58654Q21122214-5D153E34-7265-4298-8006-C7974CCA6ABEQ21122214-B941D831-32D4-4317-8382-180D3A13F09CQ21125055-641FD04B-9C4B-4A58-B049-67B2F5951E65Q21125055-AA7BC6D4-B6E0-4EF3-98E6-0644355831DDQ21133777-C1D6718F-01B2-41E6-8B50-C148B758DC73Q21135200-CC22FC02-A29F-4283-A2AA-71005FE45D64Q21156241-E3A74DD1-B946-4820-8840-86B1474CADAAQ21157677-5AD2B781-BA41-4C42-9DDE-EE6ECB73CF46Q21157677-A84BD6B0-2CAE-4CF7-811E-D0D8EEC10309Q21170314-2ACBDFA4-EF04-4F23-B1FD-A29F422737C0Q21172295-11CC8072-A0B7-4748-92EA-34C391296F20Q21172295-444C8116-C796-44A9-B909-49030DA3E467Q21494790-7CFCC9E5-E540-40E5-94CB-FE5FB700EA33Q21495192-E51EDC0A-325B-437A-B67A-3A9001F11FCDQ21496241-8DBBAE04-3D37-4B68-A469-EBE52518D504Q21496246-31A60942-232E-459B-879A-B3229A74283EQ21499235-DFBBE8BE-2AED-4450-97E6-6A83339DD14BQ21984497-35C71B0E-4BF8-446C-8ADD-6D4B2FF32915Q21984497-E90DD7AD-CBBB-42C9-AE43-D19B94FE76B0Q21987206-F8654539-CA6D-429F-9BE7-D8F2EB3FC002Q21989677-3F51BC4D-94BE-4C81-B988-3E7AA9C542F2Q21989677-AD43304C-DBE5-4CD6-B698-3138B4959296Q21989958-0D76F479-3E7A-4B84-A0EE-EA4289F21466Q21990514-5C7E10DE-2213-4D38-A7DE-CFECD6C205FBQ21990517-04B1AA75-4DD0-4424-85D1-5D8508ABA647Q21991729-3BA0049F-DF19-41D3-9B73-F59AA0B2660AQ21991729-EFF1CEE9-DEF2-445C-B459-D6BA487E4824Q27547934-4B62D703-731D-4616-92D9-CAE41733D1C9Q27550535-28F281B5-A3CF-4A0F-A75B-81C582234F87Q27551469-EBEA12FF-6623-4288-B70D-D43D0C28D5BBQ27552095-429699AA-9BEE-4746-9230-3E1474DA5034
P680
description
Interacting selectively and no ...... oved from pre-mRNA to form a m
@en
moleculaire functie
@nl
name
pre-mRNA binding
@en
type
label
pre-mRNA binding
@en
altLabel
GO:0036002
@en
prefLabel
pre-mRNA binding
@en
P279
P2888
P686
GO:0036002