Recognition of U1 and U2 small nuclear RNAs can be altered by a 5-amino-acid segment in the U2 small nuclear ribonucleoprotein particle (snRNP) B" protein and through interactions with U2 snRNP-A' protein.
about
Characterization and cloning of the human splicing factor 9G8: a novel 35 kDa factor of the serine/arginine protein familyCrystal structure of the spliceosomal U2B"-U2A' protein complex bound to a fragment of U2 small nuclear RNAStructural basis of the RNA-binding specificity of human U1A proteinT7 phage display: a novel genetic selection system for cloning RNA-binding proteins from cDNA librariesFunctional domains of the human splicing factor ASF/SF2The U1 small nuclear ribonucleoprotein (snRNP) 70K protein is transported independently of U1 snRNP particles via a nuclear localization signal in the RNA-binding domainAnalysis of the RNA-recognition motif and RS and RGG domains: conservation in metazoan pre-mRNA splicing factorsCombined biochemical and electron microscopic analyses reveal the architecture of the mammalian U2 snRNPBHK cell proteins that bind to the 3' stem-loop structure of the West Nile virus genome RNACell proteins bind specifically to West Nile virus minus-strand 3' stem-loop RNAThe yeast U2A'/U2B complex is required for pre-spliceosome formation.Analysis of RNA-binding proteins by in vitro genetic selection: identification of an amino acid residue important for locking U1A onto its RNA target.Binding affinity and cooperativity control U2B″/snRNA/U2A' RNP formationThe Drosophila U2 snRNP protein U2A' has an essential function that is SNF/U2B" independent.The U11/U12 snRNP 65K protein acts as a molecular bridge, binding the U12 snRNA and U11-59K proteinTwo distinct temperature-sensitive alleles at the elav locus of Drosophila are suppressed nonsense mutations of the same tryptophan codon.A compare-and-contrast NMR dynamics study of two related RRMs: U1A and SNF.The trans-spliceosomal U2 snRNP protein 40K of Trypanosoma brucei: cloning and analysis of functional domains reveals homology to a mammalian snRNP protein.Functional analysis of pre-mRNA splicing factor SF2/ASF structural domains.Target discrimination by RNA-binding proteins: role of the ancillary protein U2A' and a critical leucine residue in differentiating the RNA-binding specificity of spliceosomal proteins U1A and U2B".Functional analysis of SNF, the Drosophila U1A/U2B" homolog: identification of dispensable and indispensable motifs for both snRNP assembly and function in vivo.Cabeza, a Drosophila gene encoding a novel RNA binding protein, shares homology with EWS and TLS, two genes involved in human sarcoma formationFunctional redundancy of worm spliceosomal proteins U1A and U2B''.RNA binding specificity of a Drosophila snRNP protein that shares sequence homology with mammalian U1-A and U2-B" proteins.A study of collective atomic fluctuations and cooperativity in the U1A-RNA complex based on molecular dynamics simulations.RNA splicing specificity determined by the coordinated action of RNA recognition motifs in SR proteinsThe third RNA recognition motif of Drosophila ELAV protein has a role in multimerization.RNA binding by Sxl proteins in vitro and in vivoIsolation of RRM-type RNA-binding protein genes and the analysis of their relatedness by using a numerical approach.Small nuclear ribonucleoprotein (RNP) U2 contains numerous additional proteins and has a bipartite RNP structure under splicing conditionsMolecular characterization of the spliceosomal proteins U1A and U2B" from higher plants.Hel-N1: an autoimmune RNA-binding protein with specificity for 3' uridylate-rich untranslated regions of growth factor mRNAs.Characterization of human variable domain antibody fragments against the U1 RNA-associated A protein, selected from a synthetic and patient-derived combinatorial V gene library.U1A protein-stem loop 2 RNA recognition: prediction of structural differences from protein mutationsIn vitro selection of an RNA epitope immunologically cross-reactive with a peptidePrevalent RNA recognition motif duplication in the human genome.Poly(A) polymerase contains multiple functional domains.Domain structure of U2 and U4/U6 small nuclear ribonucleoprotein particles from Trypanosoma brucei: identification of trans-spliceosomal specific RNA-protein interactions.RNA binding activity of heterodimeric splicing factor U2AF: at least one RS domain is required for high-affinity binding.Two RNA-binding domains determine the RNA-binding specificity of nucleolin.
P2860
Q24312227-416F79AE-3224-43F0-B416-ABD8D50C7820Q24336733-8A06F498-7FEE-4764-B5CA-F9D46063C9ACQ24532798-4AFD23D7-2286-4EC7-A441-8B7BFFC0AED1Q24555108-C6FA4A12-069A-4890-A996-6498142D726BQ24564249-5D81AB9D-EDF0-4731-9C33-C5B0AE160198Q24611559-8A98F51F-4C0C-4BAD-8799-F3CD31BB1935Q24629832-132B5C88-5DB1-4E4E-A4AF-4EBA14B3BA6EQ24682070-0AA5076C-3F6F-4F22-8F7D-7CA508ED5741Q27480296-67DBF6FF-8A09-4C69-AD01-BB26F2026260Q27480733-C3CE8D8A-6333-4822-AC42-F31007CCE853Q27933005-356C4161-BE93-4D8F-9092-1E6A52CAA1E6Q33729059-BE4EDAF4-6EBB-4E5B-B648-3BAC1826E30DQ33792764-F638E495-203A-450A-96F5-0C6CE7022AD1Q33941834-F6CBEB10-4711-48BA-9393-A59228CF8CCDQ33947092-D812384A-282E-4713-8878-8A24B94886E8Q33966063-D73A0FB4-162F-4964-9E59-E2774E3929B4Q33990987-BD9A6541-D683-4154-BE1A-B14D3500DA24Q34046886-F92E0BDC-0C1F-4DA6-8631-42A5317084F3Q34070174-C3C5891F-E2DF-4546-8828-B7F0FCE0BFEDQ34361609-4102ED9F-7CB2-45A4-A826-B09766439193Q34362207-E369C916-1645-437C-9E4B-C47D12B4E133Q34740895-E5402E73-41F1-4C52-A585-D69C46D93B5FQ35834347-27A3A3A2-5A63-43E4-89E3-DED5B81EA214Q35922165-40A474FF-CF41-4E43-A006-BB1704E19588Q36013778-5D2ECEC2-8DB3-48B8-BD53-DC6DFCA31A6FQ36102488-A1A82D18-7C72-406D-BE81-569D927F32C4Q36509158-3A6AA0DD-3512-471D-A2AC-AE44F9E3AE77Q36657965-9BCF1D93-1B0C-48A9-95BA-1C5D4C0D8F98Q36658708-45F7FA3A-F8B0-4097-941E-6D52D3C17625Q36659057-742A93CF-EAD8-41F4-BB4B-BAC177244558Q36681126-F67A8190-9859-4B2A-BF7B-74C6E3E2DA49Q36686295-EC2A1682-A6B7-4039-8405-92369D7C9958Q36796343-424AE3EA-308B-4E9B-8CC7-79A98A577FF5Q37066470-BA912E3D-9741-4AE9-9E90-AC6B2A9D2D55Q37212410-09226A5C-E640-4411-9B7D-3E3FAA2D12D5Q37705795-9FA690B2-24FF-4D70-8ED2-2105B95D6144Q38308543-126006BA-8618-4CD9-ACFD-DB91C56301FAQ38330852-9972A0C6-2906-41AF-9CC5-71F1636FEFADQ38336270-A066E2B0-9FEC-4D5B-B844-3871A7F8C9CAQ38345864-4BFB7C32-1B55-47AE-BDEA-56A9CA3DEF23
P2860
Recognition of U1 and U2 small nuclear RNAs can be altered by a 5-amino-acid segment in the U2 small nuclear ribonucleoprotein particle (snRNP) B" protein and through interactions with U2 snRNP-A' protein.
description
1991 nî lūn-bûn
@nan
1991年の論文
@ja
1991年論文
@yue
1991年論文
@zh-hant
1991年論文
@zh-hk
1991年論文
@zh-mo
1991年論文
@zh-tw
1991年论文
@wuu
1991年论文
@zh
1991年论文
@zh-cn
name
Recognition of U1 and U2 small ...... ions with U2 snRNP-A' protein.
@en
type
label
Recognition of U1 and U2 small ...... ions with U2 snRNP-A' protein.
@en
prefLabel
Recognition of U1 and U2 small ...... ions with U2 snRNP-A' protein.
@en
P2860
P356
P1476
Recognition of U1 and U2 small ...... ions with U2 snRNP-A' protein.
@en
P2093
R C Bentley
P2860
P304
P356
10.1128/MCB.11.4.1829
P407
P577
1991-04-01T00:00:00Z