Arrested yeast splicing complexes indicate stepwise snRNP recruitment during in vivo spliceosome assembly
about
Composition and three-dimensional EM structure of double affinity-purified, human prespliceosomal A complexesNew insights into the spliceosome by single molecule fluorescence microscopyTailoring of membrane proteins by alternative splicing of pre-mRNA.Biochemical defects in minor spliceosome function in the developmental disorder MOPD I.Dynamic histone acetylation is critical for cotranscriptional spliceosome assembly and spliceosomal rearrangements.The abundance of the spliceosomal snRNPs is not limiting the splicing of U12-type introns.Composition of yeast snRNPs and snoRNPs in the absence of trimethylguanosine caps reveals nuclear cap binding protein as a gained U1 component implicated in the cold-sensitivity of tgs1Δ cellsCotranscriptional spliceosome assembly and splicing are independent of the Prp40p WW domain.Structural characterization of the fission yeast U5.U2/U6 spliceosome complex.A genome-wide analysis indicates that yeast pre-mRNA splicing is predominantly posttranscriptional.Functional roles of protein splicing factors.Cajal bodies are linked to genome conformationRegulation of alternative splicing: more than just the ABCs.Single molecule analysis reveals reversible and irreversible steps during spliceosome activationAssembly of ribosomes and spliceosomes: complex ribonucleoprotein machinesWhere splicing joins chromatin.A splicing-dependent transcriptional checkpoint associated with prespliceosome formation.The histone variant H2A.Z promotes efficient cotranscriptional splicing in S. cerevisiae.Genetics and biochemistry remain essential in the structural era of the spliceosome.The differential interaction of snRNPs with pre-mRNA reveals splicing kinetics in living cells.Splicing of Nascent RNA Coincides with Intron Exit from RNA Polymerase II.DExD/H-box Prp5 protein is in the spliceosome during most of the splicing cycle.Protein arginine methylation facilitates cotranscriptional recruitment of pre-mRNA splicing factors.Concurrent splicing and transcription are not sufficient to enhance splicing efficiency.Functional spliceosomal A complexes can be assembled in vitro in the absence of a penta-snRNP.Purification of mRNA Processing Complexes Using an RNA Affinity Approach.Nineteen complex-related factor Prp45 is required for the early stages of cotranscriptional spliceosome assembly.
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P2860
Arrested yeast splicing complexes indicate stepwise snRNP recruitment during in vivo spliceosome assembly
description
2006 nî lūn-bûn
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2006 թուականի Յունիսին հրատարակուած գիտական յօդուած
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2006 թվականի հունիսին հրատարակված գիտական հոդված
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2006年の論文
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2006年論文
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2006年論文
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2006年論文
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2006年論文
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2006年論文
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2006年论文
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name
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@ast
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@en
Arrested yeast splicing comple ...... in vivo spliceosome assembly.
@nl
type
label
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@ast
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@en
Arrested yeast splicing comple ...... in vivo spliceosome assembly.
@nl
prefLabel
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@ast
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@en
Arrested yeast splicing comple ...... in vivo spliceosome assembly.
@nl
P2860
P3181
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P1476
Arrested yeast splicing comple ...... g in vivo spliceosome assembly
@en
P2093
Daniel F Tardiff
P2860
P304
P3181
P356
10.1261/RNA.50506
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P577
2006-06-01T00:00:00Z