Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
about
Functional impact of splice isoform diversity in individual cellsSpliceosomal gene mutations in myelodysplasia: molecular links to clonal abnormalities of hematopoiesisPhosphorylation-mediated regulation of alternative splicing in cancerAlternative polyadenylation in the nervous system: to what lengths will 3' UTR extensions take us?The Musashi 1 Controls the Splicing of Photoreceptor-Specific Exons in the Vertebrate RetinaNeuronal-specific deficiency of the splicing factor Tra2b causes apoptosis in neurogenic areas of the developing mouse brainThe neurogenetics of alternative splicingThe emerging era of genomic data integration for analyzing splice isoform functionTunable protein synthesis by transcript isoforms in human cellsregSNPs-splicing: a tool for prioritizing synonymous single-nucleotide substitution.Calcium Channel CaVα₁ Splice Isoforms - Tissue Specificity and Drug Action.Regulation of mRNA abundance by polypyrimidine tract-binding protein-controlled alternate 5' splice site choiceEssential roles for the splicing regulator nSR100/SRRM4 during nervous system development.Analysis of pollen-specific alternative splicing in Arabidopsis thaliana via semi-quantitative PCR.Non-coding RNAs derived from an alternatively spliced REST transcript (REST-003) regulate breast cancer invasiveness.Proteomics of the Synapse--A Quantitative Approach to Neuronal Plasticity.Altered mRNP granule dynamics in FTLD pathogenesis.Sxl-Dependent, tra/tra2-Independent Alternative Splicing of the Drosophila melanogaster X-Linked Gene found in neurons.The splicing regulator PTBP1 controls the activity of the transcription factor Pbx1 during neuronal differentiation.RBM4 promotes neuronal differentiation and neurite outgrowth by modulating Numb isoform expressionPolarizing the Neuron through Sustained Co-expression of Alternatively Spliced IsoformsSam68 promotes self-renewal and glycolytic metabolism in mouse neural progenitor cells by modulating Aldh1a3 pre-mRNA 3'-end processing.The splicing regulator PTBP2 controls a program of embryonic splicing required for neuronal maturation.Neuronal cell type-specific alternative splicing is regulated by the KH domain protein SLM1.Regulation of mRNA splicing by MeCP2 via epigenetic modifications in the brain.Role of pseudoexons and pseudointrons in human cancer.RNA binding proteins: a common denominator of neuronal function and dysfunction.Emerging functions of alternative splicing coupled with nonsense-mediated decay.Novel Insights into NeuN: from Neuronal Marker to Splicing Regulator.Alternative RNA Splicing Associated With Mammalian Neuronal Differentiation.Neuron-enriched RNA-binding Proteins Regulate Pancreatic Beta Cell Function and Survival.Alternative splicing and nonsense-mediated mRNA decay enforce neural specific gene expression.Linking amyotrophic lateral sclerosis and spinal muscular atrophy through RNA-transcriptome homeostasis: a genomics perspective.Identification of novel radiation-induced p53-dependent transcripts extensively regulated during mouse brain development.Regulation of Shootin1 Gene Expression Involves NGF-induced Alternative Splicing during Neuronal Differentiation of PC12 Cells.A pair of RNA-binding proteins controls networks of splicing events contributing to specialization of neural cell types.A Cell-Based High-Throughput Method for Identifying Modulators of Alternative Splicing.Inhibition of nonsense-mediated RNA decay by ER stress.IRAS: High-Throughput Identification of Novel Alternative Splicing Regulators.Diversification of the muscle proteome through alternative splicing.
P2860
Q26741343-69690E82-06D1-471D-8622-09A7CB6BD0E0Q26752221-5AB3D953-BCCE-4536-9D70-E3814F2E9A35Q27009883-D32F181A-96E8-4FC5-90B2-DAE83940E7F3Q27027041-A7709393-3B9F-42A0-A261-46949186A163Q27308047-50E4DC86-8B01-453C-8A80-B57EDA632304Q27321571-75B887D3-FC6E-4790-86F6-039371835E2AQ28069349-4E99D9DD-EC30-463D-9523-AA78BFEFC2C0Q28242493-20BA3E3C-481D-4AF4-B176-B05AA9A289FEQ28603873-8A00343F-93A7-4769-8A08-9320DF114127Q30400919-3C04F097-339F-43F4-A815-0A22FF9D4349Q33719513-30CEFAD1-278C-4435-9DB0-0131B6F22BA3Q34465902-80F3BC63-1F81-4C4A-83D5-51831AB4DE38Q35293785-972AA70F-EA20-46A1-A56B-8A4DFE216384Q35569072-384DE270-061A-47D9-BDB7-A4629F85B232Q35693355-39474441-7673-4BF7-B841-5479B309D77BQ35755401-86A10DB9-26BB-46DA-B211-D8A579F1BC48Q35944221-51C2452A-310E-44FF-A6BA-A4B429A094D7Q36383204-34529A6A-7D7A-4DE2-968E-C3F2C3480375Q36585875-E1266F2B-8E6D-4FA5-B4B0-DD5A410F7B33Q36896328-F5771093-854C-4E52-9EB6-BBC30156E6E7Q36910425-AE8BBEA5-01A2-452A-A33D-1B2E33FD5C5DQ37437770-5E1F1446-659E-4B7F-BCCC-7DBCC9FEF2ACQ37494929-9A94AB23-CDD7-4DD9-87D6-9EAA2D4EDE29Q37550612-FDB2FB36-089B-4012-BBA1-361B05ED2627Q37648778-D4259D2F-75BA-44D3-9432-EEE8C6A44F8DQ38160844-FCF1EEBF-2268-44F2-A426-6D153D50A12AQ38222976-E0804B64-2920-477B-864F-BACCE8C5D018Q38238675-BA962E36-44D3-46F3-AE99-95A34A01742CQ38355004-6F01FFF0-DC8D-4356-B23F-C211EF07A188Q38708523-B593695E-9298-48D7-A2CF-0AE00106DFE2Q38721830-ACB1D344-FB34-47E3-94D3-B2EEFC468422Q38770278-AFA7D0E4-44C4-4E9C-8828-E7F1033C396BQ39039061-747F21FD-FCE3-4DEB-80C0-4E5FE4CFF2B8Q41436986-6557C881-ACBD-4C75-ABAC-3889C7DEB473Q41861840-A88FFE23-288F-41C4-9A01-8B7A37ABB1ACQ42734778-894DF53C-131A-4FF4-A1D3-BB012BC23AB7Q43811843-E81A8F2B-291C-45F4-987E-58FDE1A5D81AQ45056054-02E76033-9B41-47D0-9496-8B6D8341907FQ46148070-D0905B34-A765-40AB-B6BF-7570ADC3BFFFQ52671372-CFB6427D-F4E4-4564-8E6A-321853D7F9EF
P2860
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
description
article científic
@ca
article scientifique
@fr
articolo scientifico
@it
artigo científico
@pt
bilimsel makale
@tr
scientific article published on 03 May 2013
@en
vedecký článok
@sk
vetenskaplig artikel
@sv
videnskabelig artikel
@da
vědecký článek
@cs
name
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@en
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@nl
type
label
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@en
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@nl
prefLabel
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@en
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@nl
P2860
P1433
P1476
Alternative pre-mRNA splicing in neurons: growing up and extending its reach.
@en
P2093
Douglas L Black
Sika Zheng
P2860
P304
P356
10.1016/J.TIG.2013.04.003
P577
2013-05-03T00:00:00Z