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- Identification of Photoreceptor Genes Affected by PRPF31 Mutations Associated with Autosomal Dominant Retinitis Pigmentosa
- A Reconstituted U4/U6 Snrnp Participates in Splicing Complex Formation
- Promoter Directionality Is Controlled by U1 Snrnp and Polyadenylation Signals in Mouse Embryonic Stem Cells
- Affinity Purification of Spliceosomes Reveals That the Precursor RNA
- DSIF and NELF Interact with Integrator to Specify the Correct Post-Transcriptional Fate of Snrna Genes
- Pat1 Activates Late Steps in Mrna Decay by Multiple Mechanisms
- Alternative Polyadenylation: a New Frontier in Post Transcriptional Regulation Fanggang Ren1,2, Na Zhang1,2, Lan Zhang1,2, Eric Miller1 and Jeffrey J
- Mutation Spectrum of PRPF31, Genotype-Phenotype
- Regulating Divergent Transcriptomes Through Mrna Splicing and Its Modulation Using Various Small Compounds
- A Comprehensive Biochemical and Genetic Analysis of the Yeast U1 Snrnp Reveals Five Novel Proteins
- Regulation of Alternative Splicing: More Than Just the Abcs*
- Mrna-Type Introns in U6 Small Nuclear RNA Genes: Implications for the Catalysis in Pre-Mrna Splicing
- Interactome Analyses Revealed That the U1 Snrnp Machinery Overlaps
- A Multisubunit Factor, Cstf, Is Required for Polyadenylation of Mammalian Pre-Mrnas
- Mammalian U2 Snrnp Has a Sequence- Specific RNA-Binding Activity
- Searchable Database of Spliceosome Proteins
- Pre-Mrna Splicing in the New Millennium Michelle L Hastings and Adrian R Krainer*
- SR Proteins Are Sufficient for Exon Bridging Across an Intron
- Stem–Loop 4 of U1 Snrna Is Essential for Splicing and Interacts with the U2 Snrnp-Specific SF3A1 Protein During Spliceosome Assembly
- Human PRP4 Kinase Is Required for Stable Tri-Snrnp Association During Spliceosomal B Complex Formation
- SANS (USH1G) Regulates Pre-Mrna Splicing by Mediating the Intra-Nuclear Transfer of 2 Tri-Snrnp Complexes
- An Engineered U1 Snrnp Redefines SMN1 Exon 7 Carrying a Pathogenic Mutation at the Splice Donor Site
- The Life of U6 Small Nuclear RNA, from Cradle to Grave
- The Decapping Activator Edc3 and the Q/N-Rich Domain of Lsm4
- Crystal Structure of Human U1 Snrnp, a Small Nuclear Ribonucleoprotein
- The SMN Complex: an Assembly Machine for Rnps
- POST TRANSCRIPTIONAL MODIFICATIONS RNA Is Transcribed, but Must Be Processed Into a Mature Form Before Translation Can Begin. Th
- U1 Snrnp Regulates Cancer Cell Migration and Invasion in Vitro
- The U1 Snrnp Protein U1C Recognizes the 5 Splice Site in The
- The U1 Snrnp Subunit LUC7 Controls Plant Development and Stress Response
- RNA-Targeted Therapies and High-Throughput Screening Methods
- Post Transcriptional Modification Snurps
- U1 Snrnp Targets an Essential Splicing Factor, U2AF65. to the 3' Splice Site by a Network Interactions Spanning the Exon
- Retention of Spliceosomal Components Along Ligated Exons Ensures Efficient Removal of Multiple Introns
- Position-Dependent Inhibition of the Cleavage Step of Pre-Mrna 39-End Processing by U1 Snrnp
- Fine-Tuning of Circadian Timekeeping by Post-Transcriptional Regulation