Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA. - Wikidata - awgldk - TriplyDB

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

http://www.wikidata.org/entity/Q37285454

about

Prp40 and early events in splice site definition A mutation in a rare type of intron in a sodium-channel gene results in aberrant splicing and causes myotonia.Correct mRNA processing at a mutant TT splice donor in FANCC ameliorates the clinical phenotype in patients and is enhanced by delivery of suppressor U1 snRNAs.A feedback loop regulates splicing of the spinal muscular atrophy-modifying gene, SMN2.U1 adaptors result in reduction of multiple pre-mRNA species principally by sequestering U1snRNP Molecular Basis and Therapeutic Strategies to Rescue Factor IX Variants That Affect Splicing and Protein Function The pathogenicity of splicing defects: mechanistic insights into pre-mRNA processing inform novel therapeutic approaches.The spliceosome: a flexible, reversible macromolecular machine.Differentially expressed, variant U1 snRNAs regulate gene expression in human cells Therapeutic activity of modified U1 core spliceosomal particles Induction of antagonistic soluble decoy receptor tyrosine kinases by intronic polyA activation.U1 snRNP-Dependent Suppression of Polyadenylation: Physiological Role and Therapeutic Opportunities in Cancer.Lessons from non-canonical splicing The contribution of pseudouridine to stabilities and structure of RNAs.U1 small nuclear RNA variants differentially form ribonucleoprotein particles in vitro Intronic features that determine the selection of the 3' splice site.Pick one, but be quick: 5' splice sites and the problems of too many choices.Insights into the U1 small nuclear ribonucleoprotein complex superfamily.Dynamics and consequences of spliceosome E complex formation.Determinants of RNA metabolism in the Schizosaccharomyces pombe genome.Noncanonical registers and base pairs in human 5' splice-site selection.Characterization of the Regulation of CD46 RNA Alternative Splicing.Chemical synthesis of U1 snRNA derivatives.An exon-specific U1 small nuclear RNA (snRNA) strategy to correct splicing defects.Widespread recognition of 5' splice sites by noncanonical base-pairing to U1 snRNA involving bulged nucleotides.TRAP150 activates splicing in composite terminal exons.A mechanism underlying position-specific regulation of alternative splicing.Binding to SMN2 pre-mRNA-protein complex elicits specificity for small molecule splicing modifiers.Rules and tools to predict the splicing effects of exonic and intronic mutations.A splicing component adapted to gene silencing.

P2860

Q26780366-D84EA69A-E605-432F-8EFF-23A95A4AD696 Q30584867-EB89F560-805B-4E4B-BD8F-4567371277D4 Q34169373-3BD9A4F3-0833-42E9-95C7-02CE118686B0 Q34341178-080E9656-DC8B-4AAC-926E-F62105EB0DDD Q35017819-51FB5A66-75E3-4640-8AD5-588344F2E3A5 Q36030221-4738B0A9-CF03-4899-A204-C94CA83D95D3 Q36410173-5AC3CB65-E570-4B34-A645-4809F99416CD Q36429942-0FE5A494-BBF1-49F5-9A8B-251BD2319357 Q36580574-29BD58A0-5A1C-4879-AAA6-15F3A6112E01 Q36768787-FF3A98F3-8416-493A-9581-1AAD88DC9A8F Q37194653-735D8E70-2239-4B5A-ABF5-EC0BD0A1D54C Q37304518-614D0C79-DACA-4342-BA87-E52B7C2CE561 Q37499331-1910FBC5-450F-4379-930A-88504E27E5DE Q37631867-354112E9-3EC8-4477-AB30-64C6430D4BEB Q37719737-157CB18F-8D8F-4842-B913-A91F59BBC89A Q38027121-31F94163-7B80-4C68-B97E-A522A0D1996D Q38076663-79E79703-9181-4952-86EB-5F98C46CA0B9 Q38255119-FC7D8FB4-C0FB-435B-A21D-F26D5E66DA1A Q38614549-CAB41474-D982-4CC6-8520-E4BFD3716097 Q38669635-271F8A21-48F3-498A-A466-EDBBF3B1CE33 Q38896235-B1BF3D6A-7545-4227-BAC9-A310A58B7A50 Q40659030-FE7BDC84-0F69-435C-B583-6C01DD6D35C1 Q41890046-7DFE7EB4-F12F-4443-A655-593172B81124 Q42156108-E2A08114-7274-4A63-9748-8466D49383E6 Q42177704-6A54C8B4-60B1-4700-8495-A49A63B82BB1 Q42999207-E307B753-8142-48B9-9256-3710823F2382 Q47134651-85475F46-7979-485D-B964-A5C5CDF98EAB Q47142870-DA765DE0-F619-492C-9F74-02B898230E0B Q49832045-1A1A5B87-492A-4E79-8E19-BBD4760FFE26 Q51777937-6C38CC93-95CE-4C75-B770-4FF8F06794E0

P2860

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

http://www.wikidata.org/entity/Q37285454

description

article científic

@ca

article scientifique

@fr

articolo scientifico

@it

artigo científico

@pt

bilimsel makale

@tr

scientific article published on 25 January 2009

@en

vedecký článok

@sk

vetenskaplig artikel

@sv

videnskabelig artikel

@da

vědecký článek

@cs

name

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@en

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@nl

type

label

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@en

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@nl

prefLabel

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@en

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@nl

P1433

Q37285454-FC7F0BA3-1139-42FA-A7DD-9B50FD269658

P1476

Q37285454-08C4EA59-8B71-4A63-9B8B-88E2B6770C8E

P2860

Q37285454-008F33CC-9F7E-41E7-B69E-C4284E862E9A

Q37285454-033110F3-58BC-4AA9-8C21-D4E1F3B21DEE

Q37285454-0B42BD8F-6898-4388-9A2F-7810CDAF58D6

Q37285454-114F604F-9D4B-45C2-9708-DF91D7F116A8

Q37285454-15DACF96-99EC-4173-A255-D6A02776B50D

Q37285454-29629117-4B34-4F89-A60D-1A8CF95ED10A

Q37285454-2D148693-85A8-478E-BD71-B0ADB2EDA520

Q37285454-383ACE1E-0DDF-41A7-A708-932558B3448E

Q37285454-389CDC60-212A-409C-A526-8A69253A005C

Q37285454-3E675D75-5B87-4B4E-83C7-213EE07A1F27

P2888

Q37285454-4AEABBC3-9711-418B-BF5B-55D28E91E792

P304

Q37285454-4E657758-12E0-41B5-B478-2DF2705A89A6

P31

Q37285454-1E5E07C7-AA24-4096-A221-2AFBB9DEAEF3

P356

Q37285454-739086E8-FB85-4DAB-BAC4-F10CBFBE66AA

P433

Q37285454-2153A3AB-85FA-4232-90AB-0B222C3EF252

P478

Q37285454-EB41883A-7FCF-4B12-A84B-04219CC4C56C

P50

Q37285454-05D2FE56-E3FB-4FC3-A287-C7B9D6E9BF1D

Q37285454-AA99313D-6680-4E63-8B16-4E10AC30F92C

P577

Q37285454-A3AF9314-0705-46A3-837A-466E48D04544

P5875

Q37285454-88B2ECBD-FBAC-430C-8C17-82F663CDF7A2

P698

Q37285454-38654E6A-2EF8-45C0-B2CD-24510EEF8040

P932

Q37285454-F25014F3-F645-4174-BCD0-A0D93913B26D

P356

P1433

Nature Structural & Molecular Biology

P1476

Recognition of atypical 5' splice sites by shifted base-pairing to U1 snRNA.

@en

P2860

RNA splice junctions of different classes of eukaryotes: sequence statistics and functional implications in gene expression

The human genome browser at UCSC

The U1 snRNP protein U1C recognizes the 5' splice site in the absence of base pairing.

Mechanical devices of the spliceosome: motors, clocks, springs, and things.

Splicing of a rare class of introns by the U12-dependent spliceosome

Are snRNPs involved in splicing?

Yeast U1 snRNP-pre-mRNA complex formation without U1snRNA-pre-mRNA base pairing.

Allosteric cascade of spliceosome activation

A single nucleotide in the SMN gene regulates splicing and is responsible for spinal muscular atrophy

A compensatory base change in U1 snRNA suppresses a 5' splice site mutation

P2888

P304

176-182

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1038/NSMB.1546

http://www.w3.org/2001/XMLSchema#string

P433

2

http://www.w3.org/2001/XMLSchema#string

P478

16

http://www.w3.org/2001/XMLSchema#string

P50

Adrian Robert Krainer

P577

2009-01-25T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

23939560

http://www.w3.org/2001/XMLSchema#string

P698

19169258

http://www.w3.org/2001/XMLSchema#string

P932

2719486

http://www.w3.org/2001/XMLSchema#string