about
Genome-wide association between branch point properties and alternative splicingSplicing regulation: from a parts list of regulatory elements to an integrated splicing codeStructural model of the p14/SF3b155{middle dot}branch duplex complexThe significant other: splicing by the minor spliceosomeStructural and mechanistic insights into human splicing factor SF3b complex derived using an integrated approach guided by the cryo-EM density mapsThe CUGBP2 splicing factor regulates an ensemble of branchpoints from perimeter binding sites with implications for autoregulationImpact of base pair identity 5' to the spliceosomal branch site adenosine on branch site conformationIdentification of new splice sites used for generation of rev transcripts in human immunodeficiency virus type 1 subtype C primary isolates.Competitive regulation of alternative splicing and alternative polyadenylation by hnRNP H and CstF64 determines acetylcholinesterase isoforms.Congenital erythropoietic porphyria: a novel uroporphyrinogen III synthase branchpoint mutation reveals underlying wild-type alternatively spliced transcriptsClinical significance of intronic variants in BRAF inhibitor resistant melanomas with altered BRAF transcript splicing.Genome-wide data-mining of candidate human splice translational efficiency polymorphisms (STEPs) and an online database.High-throughput sequence analysis of Ciona intestinalis SL trans-spliced mRNAs: alternative expression modes and gene function correlates.The organization of nucleosomes around splice sites.Alternative splicing of TAF6: downstream transcriptome impacts and upstream RNA splice control elements.A view of pre-mRNA splicing from RNase R resistant RNAsDetecting and characterizing circular RNAs.Lariat intronic RNAs in the cytoplasm of Xenopus tropicalis oocytesCompetition between a noncoding exon and introns: Gomafu contains tandem UACUAAC repeats and associates with splicing factor-1.Structural basis of lariat RNA recognition by the intron debranching enzyme Dbr1.Circular RNAs are abundant, conserved, and associated with ALU repeats.Intron definition and a branch site adenosine at nt 385 control RNA splicing of HPV16 E6*I and E7 expressionAn SF1 affinity model to identify branch point sequences in human introns.Reduced TFAP2A function causes variable optic fissure closure and retinal defects and sensitizes eye development to mutations in other morphogenetic regulatorsIdentification of six novel PTH1R mutations in families with a history of primary failure of tooth eruption.AG-dependent 3'-splice sites are predisposed to aberrant splicing due to a mutation at the first nucleotide of an exon.Genome-wide discovery of human splicing branchpointsRNA splicing in a new rhabdovirus from Culex mosquitoes.Identification and experimental validation of splicing regulatory elements in Drosophila melanogaster reveals functionally conserved splicing enhancers in metazoansAutoregulated splicing of muscleblind-like 1 (MBNL1) Pre-mRNA.Intronic deletions of tva receptor gene decrease the susceptibility to infection by avian sarcoma and leukosis virus subgroup A.Transcriptome sequencing reveals potential mechanism of cryptic 3' splice site selection in SF3B1-mutated cancersIdentification and Validation of Evolutionarily Conserved Unusually Short Pre-mRNA Introns in the Human Genome.Intronic deletions that disrupt mRNA splicing of the tva receptor gene result in decreased susceptibility to infection by avian sarcoma and leukosis virus subgroup A.Sequencing of lariat termini in S. cerevisiae reveals 5' splice sites, branch points, and novel splicing eventsPrp4 Kinase Grants the License to Splice: Control of Weak Splice Sites during Spliceosome ActivationDeep intron elements mediate nested splicing events at consecutive AG dinucleotides to regulate alternative 3' splice site choice in vertebrate 4.1 genes.Sequence Analysis of In Vivo-Expressed HIV-1 Spliced RNAs Reveals the Usage of New and Unusual Splice Sites by Viruses of Different Subtypes.Re-splicing of mature mRNA in cancer cells promotes activation of distant weak alternative splice sites.Functional analysis of synonymous substitutions predicted to affect splicing of the CFTR gene.
P2860
Q21092523-CFAEE7AF-15B6-4CEC-9500-68CA78E55790Q24642620-7DED6C5C-F363-45C0-B943-41E5CB33233CQ27665723-C1858C78-31AE-4DFD-9D77-0CFFCD4148C9Q28277280-6BF897EB-F393-419D-97A8-4E7128ED16A0Q28315106-7CB13290-5BD1-4F06-AA8B-D4B6083417A5Q28475882-97826530-CC02-4469-ADB5-EDC8182A5F63Q28715325-72BA51AE-4FCA-422B-AEA3-11F6444F10F3Q30413474-FFC1EFD5-F297-4A51-98CC-E434759AAE68Q33554183-62614806-9178-48A0-B596-7BC9ED70BA5FQ33634426-C75875D6-F48D-4B85-B169-08EF32B593D9Q33660469-4569AB01-989E-460E-B3D7-012C34FDA2CCQ33719164-014A2A18-6514-4889-B2CC-0FF42BC2B1F8Q33812560-3ADC6B6D-E818-4571-AE88-5ADA51A88128Q33871238-465F9810-3100-46A8-8B51-160D8B86A247Q33905777-E7BEF7B5-3577-4F07-973B-645B2E653CB7Q33907470-FA3AA17E-F54B-4ED2-8F1B-817CB9321FC9Q34001743-C2532E06-62F0-46A1-9694-9283AA3488B8Q34067272-AE13FEB8-E790-4E64-B231-14D8FD2DBFC6Q34175646-F394F7DB-CCAC-4778-BAC8-D190D5E54168Q34249499-0FD15C02-776C-413C-B6AC-B195F431C6E9Q34318374-3D2E9A0F-CF0D-4698-95E3-F952972E3952Q34441421-ABDEBD55-681B-4398-8DAA-CF2051D66424Q34723469-364D2827-9704-444E-830D-B22D2CFF9504Q34876963-CC88C995-D08B-43A9-9C98-2542D1F0F793Q34994793-D1977900-358C-49AB-92A0-11153131BAA2Q35017903-72815119-1A20-466A-A258-92CF64EB5D71Q35042993-E0BCB0B4-9B20-4609-B70B-6127A9980100Q35077434-3F0655EE-7FFA-4D3D-A7EA-37A265B40EFFQ35262597-8D996A77-BDE5-4CEA-900C-D24B43285D48Q35310396-72A53B8E-B851-4A9B-8F8B-CAD60C95E53CQ35422927-B886125F-8211-4340-98CE-231205974D1AQ35577014-203E2664-08F4-4649-A73B-9EDBC1F9A662Q35723325-8EE20A90-3C53-4C68-8838-5DD62CA7354CQ35826549-B6FB1215-6343-4EBA-BA80-3B93F3286C94Q35863719-03C93CE7-6B58-48DC-8CCA-2F11FDB47CFAQ35885200-D6EF1931-38DD-4027-8ECC-A966D23EDE77Q36023221-5E8737C1-22F1-492A-AD18-AE6A614AE0F1Q36063873-99187F22-D3E7-416F-A524-6A7D90303C62Q36228562-DCEDCACD-75A9-46C5-A03E-54160D706D22Q36230171-FB7BDFD8-84AF-47B0-B87D-E61E23C882E1
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Ապրիլին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի ապրիլին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
Human branch point consensus sequence is yUnAy
@ast
Human branch point consensus sequence is yUnAy
@en
Human branch point consensus sequence is yUnAy
@nl
type
label
Human branch point consensus sequence is yUnAy
@ast
Human branch point consensus sequence is yUnAy
@en
Human branch point consensus sequence is yUnAy
@nl
prefLabel
Human branch point consensus sequence is yUnAy
@ast
Human branch point consensus sequence is yUnAy
@en
Human branch point consensus sequence is yUnAy
@nl
P2093
P2860
P3181
P356
P1476
Human branch point consensus sequence is yUnAy
@en
P2093
Akio Masuda
Kaiping Gao
Tohru Matsuura
P2860
P304
P3181
P356
10.1093/NAR/GKN073
P407
P50
P577
2008-02-19T00:00:00Z