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mRNA bindingdouble-stranded RNA bindingrRNA bindingsingle-stranded RNA bindingsnoRNA bindingsnRNA bindingtelomerase RNA bindingpoly(A) RNA bindingtRNA bindingAU-rich element bindingRNA stem-loop bindingG-quadruplex RNA bindingN6-methyladenosine-containing RNA bindingtranslation factor activity, RNA bindingprimary miRNA bindingRNA cap bindinghistone pre-mRNA DCP bindingpre-miRNA bindingBRE bindingribonuclease P RNA bindingpre-mRNA binding7S RNA bindingmisfolded RNA bindingbase pairing with RNARNA modification guide activity21U-RNA bindingtelomeric repeat-containing RNA bindingalpha-aminoacyl-tRNA bindingregulatory region RNA bindingGU repeat RNA bindingregulatory RNA bindingpumilio-response element bindingRNA binding involved in posttranscriptional gene silencingC5-methylcytidine-containing RNA bindinglong noncoding RNA binding
P279
P361
Dermcidin2',3'-cyclic nucleotide 3' phosphodiesteraseDihydrofolate reductaseBreast cancer 1, early onsetToll-like receptor 3Ribonuclease L (2', 5'-oligoisoadenylate synthetase-dependent)Angiogenin, ribonuclease, RNase A family, 5Growth factor receptor bound protein 7Heat shock protein 8Ataxin 1Eukaryotic translation initiation factor 2-alpha kinase 2DNA methyltransferase (cytosine-5) 1Enolase 1, alpha non-neuronFibrillarinNuclear receptor subfamily 0, group B, member 1Telomerase reverse transcriptaseNuclear RNA export factor 1Heterogeneous nuclear ribonucleoprotein A1BRCA1 DNA repair associatedtransformer-2 protein homolog beta, putativeDNA2/NAM7 helicase, putativeYY1 transcription factorAconitase 1Actinin alpha 42'-5'-oligoadenylate synthetase 1Peroxiredoxin 1Interferon gamma inducible protein 16Parkinsonism associated deglycaseTensin 1AT-rich interaction domain 5APoly(U) binding splicing factor 60Enhancer of zeste 2 polycomb repressive complex 2 subunitSolute carrier family 16 member 3Poly(A)-specific ribonucleasePeptidylprolyl isomerase BCleavage stimulation factor subunit 2Cleavage stimulation factor subunit 1Chromodomain helicase DNA binding protein 3Mitochondrial ribosomal protein L28POLDIP3 protein
P680
NOLP: identification of a novel human nucleolar protein and determination of sequence requirements for its nucleolar localizationANOVA, a putative astrocytic RNA-binding protein gene that maps to chromosome 19q13.3Identification of two novel mammalian genes establishes a subfamily of KH-domain RNA-binding proteinsThe sigma(70)-like motif: a eukaryotic RNA binding domain unique to a superfamily of proteins required for ribosome biogenesisHost cell proteins binding to the encapsidation signal epsilon in hepatitis B virus RNADistinct sequence motifs within the 68-kDa subunit of cleavage factor Im mediate RNA binding, protein-protein interactions, and subcellular localizationA cDNA clone of the hnRNP C proteins and its homology with the single-stranded DNA binding protein UP2Crooked neck is a component of the human spliceosome and implicated in the splicing processIdentification of mRNA that binds to eukaryotic initiation factor 5A by affinity co-purification and differential displayThe human 64-kDa polyadenylylation factor contains a ribonucleoprotein-type RNA binding domain and unusual auxiliary motifsIdentification of the factors that interact with NCBP, an 80 kDa nuclear cap binding proteinGeneration of a transcription map at the HSD17B locus centromeric to BRCA1 at 17q21CRHSP-24 phosphorylation is regulated by multiple signaling pathways in pancreatic acinar cellsIFIT1 is an antiviral protein that recognizes 5'-triphosphate RNAThe structure of the ASAP core complex reveals the existence of a Pinin-containing PSAP complexRapid and systematic analysis of the RNA recognition specificities of RNA-binding proteinsPurification and characterization of human cleavage factor Im involved in the 3' end processing of messenger RNA precursorsPrimary sequence of the human, lysine-rich, ribosomal protein RPL38 and detection of an unusual RPL38 processed pseudogene in the promoter region of the type-1 angiotensin II receptor geneSAMHD1 is a nucleic-acid binding protein that is mislocalized due to aicardi-goutières syndrome-associated mutationsA delayed-early response nuclear gene encoding MRPL12, the mitochondrial homologue to the bacterial translational regulator L7/L12 proteinTissue specific expression and cDNA structure of a human transcript encoding a nucleic acid binding [oligo(dC)] protein related to the pre-mRNA binding protein KYY1 tethers Xist RNA to the inactive X nucleation centerBRCA1 supports XIST RNA concentration on the inactive X chromosomeHuman and mouse MOK2 proteins are associated with nuclear ribonucleoprotein components and bind specifically to RNA and DNA through their zinc finger domainsHomology between IRE-BP, a regulatory RNA-binding protein, aconitase, and isopropylmalate isomeraseCharacterisation of two major cellular poly(rC)-binding human proteins, each containing three K-homologous (KH) domainsThe C-terminal alpha-alpha superhelix of Pat is required for mRNA decapping in metazoaCharacterization by cDNA cloning of the mRNA of a highly basic human protein homologous to the yeast ribosomal protein YL41Diverse spermatogenic defects in humans caused by Y chromosome deletions encompassing a novel RNA-binding protein geneA SPGY copy homologous to the mouse gene Dazla and the Drosophila gene boule is autosomal and expressed only in the human male gonadeIF3d is an mRNA cap-binding protein that is required for specialized translation initiationGenomic structure and amino acid sequence domains of the human La autoantigenDissecting FMR1, the protein responsible for fragile X syndrome, in its structural and functional domainsXist Exon 7 Contributes to the Stable Localization of Xist RNA on the Inactive X-Chromosome.H19 inhibits RNA polymerase II-mediated transcription by disrupting the hnRNP U-actin complex.P-TEFb Activation by RBM7 Shapes a Pro-survival Transcriptional Response to Genotoxic StressRNA as a key factor in driving or preventing self-assembly of the TAR DNA-binding protein 43An Intramolecular Salt Bridge Linking TDP43 RNA Binding, Protein Stability, and TDP43-Dependent NeurodegenerationCIRP regulates BEV-induced cell migration in gliomas
P921
Q14633859-684B4C92-C6D3-4D3D-8B97-B65BE3550ED1Q14866204-7597DB73-091E-4D35-9C65-370965861832Q14877432-FE442536-31DE-42D6-8F57-0B50597C0718Q14908224-C066D39A-0754-4001-BF38-8F3BD35068ECQ14914393-8F8691D1-A4CA-4E1D-BDE5-309773672DE5Q15314924-91CA5F05-C8E5-41BA-A7B7-C1CB6D446106Q15315119-65FF9DE5-499C-45C6-9260-C0D802AD56F1Q21095162-FBEE94FB-E3CA-4106-8DA2-575E3D305388Q21101326-AACA34FE-80AA-4CE0-9C94-C4C331FDC233Q21104787-E273BF0C-1990-4E8C-8BBA-6C69D011CDC5Q21105625-D724C1C9-57AA-4B05-9515-99A2B4CE1D1FQ21105798-18D90344-FFA6-4BC3-953C-6CD8006DADFEQ21106131-7A53B234-7C53-4F98-849E-11639F23A383Q21106577-A03F0ADD-22C3-4EF4-B3AB-31B5B5A9B0E7Q21108531-D162F639-1901-4203-8214-BAC8A3F08375Q21108760-DE14BD79-3EF4-49F4-ACAC-4B307B933990Q21111019-71ABF258-1AD3-4798-8BCB-F83E85E5FED9Q21111252-9E3274D1-D74D-42E3-8529-6B66C232F459Q21117195-33C7769C-DF8A-4A58-802F-DF6027AA58EDQ21120469-D71ABF7F-2A6A-4398-A383-7461D11C9A9AQ21125053-B1046A4E-9440-4CC2-90DD-1A30EA0164DCQ21125257-CF21D32E-C3B8-43EB-A99A-AD99E5B89B57Q21444672-262ACD35-ED99-4C91-9428-F6190E0BF458Q22314783-C43E11FB-DBC3-44C5-BAB3-EF2CFF859FD2Q22314786-3F9578B8-CFD5-4439-AD85-555C92E4F70CQ22315265-4D6DCC8F-AA98-4A0D-BD63-27C091D725D7Q22315320-4510025A-3079-4B93-8EAF-4E39BBA242D9Q22315325-2ED0DB42-256A-4497-8251-7EB4090B17D8Q22315403-C720CFBE-B0F5-41EB-B83E-7952AB44F900Q22315412-1CC1332F-64C7-4563-B98E-87DF24C51CFBQ50352343-15DD174C-FE84-4818-B8E4-980B15673C16Q61705460-4FC2FF78-D442-4373-A4EB-7589D3F1D43AQ63165881-6E133493-D350-43CE-A8B0-E00C8BA6A301Q70535584-E1CF22B1-DCFD-46B5-9085-AC2E41DD8544Q70550857-FFF304CE-C9AD-491A-8560-ECF902CAB78A
P279
Q1200249-8080E78C-A81F-43C3-BC08-AC3AC0F7361AQ1200249-B6581270-C5D2-46D7-BF3E-F5B092C44CEEQ14354027-F06E60D7-563B-4388-ADFE-E8C018B97D30Q14819390-F4F642C8-4AD8-4F93-89CD-67D515243285Q14862232-3F5BFD0B-ACB0-4D7A-AE3A-DE4493EC3E50Q14866248-CF1E0480-41D0-43FD-B563-0BF206FEA223Q14877436-C30FE3D6-745B-4E09-8667-A5A98870B50FQ14882123-9F36B930-20DF-49B7-8D6F-3A5CFB7A6E24Q14886049-ABEE94DA-0C84-4E20-AF82-62AE513BE823Q14888957-D16FA210-A859-40B5-B1A0-384E992BBB22Q14905517-3588C45E-1A7E-40A2-9EAB-71BB3A4187B2Q14906022-7F948530-B9C1-40FB-A07C-C173D004E64CQ14908005-887C6B0C-1B7B-4346-9622-BA2EF033C1F3Q14914005-D3E4F038-1AAB-4ECD-B31C-C0ECFC8CD535Q14914394-70286E04-8150-4831-93AB-2281F3F8D124Q15314643-5296C408-575D-41BB-A986-0A6B3E09FE06Q15315162-728F0A22-C4B4-4BF0-A2A7-F351BFA4EE33Q15334286-B86C1826-4A89-4E86-81A4-E2FBCE6572DBQ15334286-D4F5D1EF-CCC1-4D5C-B300-C79AA1407E88Q16252262-25E276FB-EB5D-4DDC-8225-842D41575715Q16252262-F69C1F42-00F8-44DD-8295-EA7BA30AA7F7Q17487737-AD8F8D35-6265-4415-A9D5-37BB9DEF54CEQ18969789-810B39F7-6A5D-459C-8FC6-DBF0B3228EA3Q18970360-544A2FD4-5F5C-428A-BCB7-C4C89A602F53Q18970360-BE5B1B06-EA0F-4EA8-9215-105273E7DD3DQ21096253-DA6E9C31-85C1-4D3D-9D39-F7C460543FA8Q21096283-A77BEF3A-6077-44D3-842D-88B07227AABCQ21096355-9DF8759B-67E2-4056-B154-C75345258713Q21096355-BC161F52-47DF-4F95-A092-AFCD6EE1C19EQ21096374-3970C18D-BD1F-4F4E-B5F8-6A994E3CE1F9Q21097272-1B55492A-521D-4353-B36D-7F4837A4D508Q21097272-95C0C4CF-9B64-4694-B0E2-8AD58A642169Q21097293-C91C5FF6-2A4E-403A-8BBB-29609C04E54FQ21097293-FF984176-A700-4078-AF63-A7709DECAA50Q21097342-8F198F03-B9C2-4081-A4A4-DF92BA382B20Q21097350-55CFFF8E-FC15-4287-A701-9182AE5E572AQ21097350-A6F1E2D0-A1D6-427B-8FDD-F062D62A240EQ21097428-FA81A710-5E87-475C-80B5-E9B6ED0D84E2Q21097467-24CE254C-FC8C-4A80-8E2F-39052D16B3A8Q21097467-A78CE10D-FF4E-4D2E-861A-9BAD3EFD7463
P680
description
biologisch proces
@nl
interacting selectively and non-covalently with an RNA molecule or a portion thereof
@en
name
RNA binding
@en
RNA-bindend
@de
RNA-binding
@nl
liaison ARN
@fr
type
label
RNA binding
@en
RNA-bindend
@de
RNA-binding
@nl
liaison ARN
@fr
altLabel
GO:0003723
@en
RNA-bindende
@de
RNA-bindender
@de
RNA-bindendes
@de
prefLabel
RNA binding
@en
RNA-bindend
@de
RNA-binding
@nl
liaison ARN
@fr
P2888
P527
P686
GO:0003723