Conserved RNA secondary structures promote alternative splicing.
about
Role of RNA structure in regulating pre-mRNA splicingPerturbation of chromatin structure globally affects localization and recruitment of splicing factorsEvidence for widespread association of mammalian splicing and conserved long-range RNA structuresExpansion of the eukaryotic proteome by alternative splicingTailoring of membrane proteins by alternative splicing of pre-mRNA.Alu exonization events reveal features required for precise recognition of exons by the splicing machineryFunctional properties and evolutionary splicing constraints on a composite exonic regulatory element of splicing in CFTR exon 12The intronic splicing code: multiple factors involved in ATM pseudoexon definition.Competing upstream 5' splice sites enhance the rate of proximal splicing.GC content around splice sites affects splicing through pre-mRNA secondary structuresAn antisense microwalk reveals critical role of an intronic position linked to a unique long-distance interaction in pre-mRNA splicingA novel splice variant in the N-propeptide of COL5A1 causes an EDS phenotype with severe kyphoscoliosis and eye involvement.Secondary structure of a conserved domain in an intron of influenza A M1 mRNATIA1 prevents skipping of a critical exon associated with spinal muscular atrophy.PMD patient mutations reveal a long-distance intronic interaction that regulates PLP1/DM20 alternative splicing.A conserved alternative splicing event in plants reveals an ancient exonization of 5S rRNA that regulates TFIIIA.Stress-induced endogenous siRNAs targeting regulatory intron sequences in Brachypodium.RNA structure and the mechanisms of alternative splicing.Key features of the two-intron Saccharomyces cerevisiae gene SUS1 contribute to its alternative splicing.Efficient internal exon recognition depends on near equal contributions from the 3' and 5' splice sites.Splicing predictions reliably classify different types of alternative splicing.Long Noncoding RNA Expression during Human B-Cell DevelopmentIncreased Transcript Complexity in Genes Associated with Chronic Obstructive Pulmonary DiseaseGenome-Wide Analysis of Alternative Splicing during Development and Drought Stress in Maize.RNA Structures as Mediators of Neurological Diseases and as Drug Targets.Staufen1 Regulates Multiple Alternative Splicing Events either Positively or Negatively in DM1 Indicating Its Role as a Disease ModifierDeciphering the plant splicing code: experimental and computational approaches for predicting alternative splicing and splicing regulatory elementsRNA secondary structure mediates alternative 3'ss selection in Saccharomyces cerevisiaeParallel computation of genome-scale RNA secondary structure to detect structural constraints on human genome.Nucleotide sequence composition adjacent to intronic splice sites improves splicing efficiency via its effect on pre-mRNA local folding in fungiThe role of short RNA loops in recognition of a single-hairpin exon derived from a mammalian-wide interspersed repeat.Mechanistic principles of antisense targets for the treatment of spinal muscular atrophyFar upstream element-binding protein 1 and RNA secondary structure both mediate second-step splicing repression.Prediction of clustered RNA-binding protein motif sites in the mammalian genome.Competition between pre-mRNAs for the splicing machinery drives global regulation of splicing.An intronic structure enabled by a long-distance interaction serves as a novel target for splicing correction in spinal muscular atrophy"Cotranscriptionality": the transcription elongation complex as a nexus for nuclear transactions.Jmjd6, a JmjC Dioxygenase with Many Interaction Partners and Pleiotropic FunctionsCa2+-signaling, alternative splicing and endoplasmic reticulum stress responses.Complexity of the alternative splicing landscape in plants.
P2860
Q24631714-870E3068-D5C9-43A8-8938-953A0E797784Q27313223-ACED0975-BB48-44B6-B73F-5E65A36E93E9Q28732709-9B2CC646-03B6-45AA-8088-D3FF2074BAF2Q29615083-0442D849-F1AE-4732-8E1D-4EE36E8E4321Q30418167-A5EC5826-445B-416F-89E7-04FC85CE341EQ33415448-D3BBC1CA-8366-4E4B-96B8-3DE8E4BCA550Q33608817-CBA909D0-6318-4BAD-BDE8-926D3F5320EFQ33690608-DAE2F32C-667B-48B4-82F1-89493EC28B07Q33769266-67FF5371-4FA1-4660-A82D-F341BFCABFEAQ33807911-56CBF3BA-B2CC-4F6C-A3F5-C6C8C904346DQ33867447-96266BAF-2D79-4CA4-AAFC-9753EAF6E722Q33911125-4FB4E0C6-46CF-4B9F-9043-D81DF96E53DAQ34070147-F000D1D1-786D-419D-A6F1-DC576EFDB0B0Q34156826-A2BF40C2-B1A7-4836-921F-30E9EE634DE3Q34211868-09AE178F-7055-414E-A9F6-3EC5A4192AE0Q34762619-692253A5-B67B-4B14-9361-AF35E905B689Q35113601-47E7EC7F-EC17-47F8-A67B-A993712042CAQ35146258-FF8FE266-6AF0-40B4-B0FF-6F62FBD10453Q35447539-C359D54C-959D-4EBF-9829-BC202AFFC98FQ35468251-5D6F67B2-B49B-4F66-BC1E-323A1B0D9555Q35534944-2889BAA4-D954-41E4-95CE-9994EDEF4959Q35783785-E06F4D27-F69C-4AA3-8E27-D1DFBBE82574Q35812803-266B83EE-1E63-49FD-A594-1C20C7DD6F5AQ35845932-70D3E95A-F71B-477E-BA5A-A3BCFD9E0CB7Q35868044-BCB2F2D7-8B1E-483A-B183-F6C2B1616112Q35908266-222FA581-9836-4637-8450-63C6E55B905AQ35970681-9C3C0840-B4BA-4EEA-A97E-972D9014E260Q35981884-2A689287-DB91-4ED3-A96E-DF518F35B027Q36011235-66BD406F-C17D-48CC-AC6F-8E473DBF51E3Q36072290-5CED22D5-D85E-48FE-B3C9-7D1D25A9F270Q36190201-82F8869A-F666-4F15-89D7-7886A5BF11B3Q36322222-5F0596C4-9D3D-4D38-8DBC-1B8827D7D54BQ37031803-6C9C1F1C-DD85-4E1C-82A4-6FB70DFE09FBQ37080345-454B3F98-3400-4B81-870F-CB97DC7198B3Q37166231-656262C5-F6E9-4AB1-A3D0-48773B3BB8C8Q37197829-B9FBC240-84E6-4A02-AD67-A5A6EC54982BQ37620941-723AF042-9F61-4C3A-98B1-96B7C5E623C0Q37703058-7B689068-667E-4D06-AE6A-4D527D1A5C28Q37848749-DB694ED0-FFED-4ABC-8DD1-B805DE2AEB35Q38157823-3554EBC0-A085-46C7-A92A-08BC60A40FD4
P2860
Conserved RNA secondary structures promote alternative splicing.
description
2008 nî lūn-bûn
@nan
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
2008年學術文章
@zh
2008年學術文章
@zh-hant
name
Conserved RNA secondary structures promote alternative splicing.
@en
type
label
Conserved RNA secondary structures promote alternative splicing.
@en
prefLabel
Conserved RNA secondary structures promote alternative splicing.
@en
P2860
P356
P1433
P1476
Conserved RNA secondary structures promote alternative splicing.
@en
P2093
Klemens J Hertel
Peter J Shepard
P2860
P304
P356
10.1261/RNA.1069408
P407
P577
2008-06-25T00:00:00Z