Modelling reveals kinetic advantages of co-transcriptional splicing
about
Nested sampling for parameter inference in systems biology: application to an exemplar circadian model.Adventures in time and space: splicing efficiency and RNA polymerase II elongation rateA rule-based kinetic model of RNA polymerase II C-terminal domain phosphorylation.Kinetic competition during the transcription cycle results in stochastic RNA processing.Quantification of pre-mRNA escape rate and synergy in splicing.Considering the kinetics of mRNA synthesis in the analysis of the genome and epigenome reveals determinants of co-transcriptional splicing.H2B ubiquitylation modulates spliceosome assembly and function in budding yeast.Intronic features that determine the selection of the 3' splice site.A splicing-dependent transcriptional checkpoint associated with prespliceosome formation.Perfect timing: splicing and transcription rates in living cells.Introns regulate the production of ribosomal proteins by modulating splicing of duplicated ribosomal protein genes.Cutting a Long Intron Short: Recursive Splicing and Its Implications.From structure to systems: high-resolution, quantitative genetic analysis of RNA polymerase II.Gene expression at the Iguazú Falls: a report from the "Gene Expression and RNA Processing" symposium; Iguazú Falls, Province of Misiones, Argentina.Mathematical modeling identifies potential gene structure determinants of co-transcriptional control of alternative pre-mRNA splicing
P2860
Q31124898-67C59DF9-6045-4D92-B1A7-C3101A47934BQ33822991-16BF926B-F951-473F-806F-82F6C5A2A209Q34353791-C0D0F24E-415E-440A-83B8-1A6C6DDF1A34Q34411315-F2B93045-7B61-485F-944F-9F63DD7F3F48Q34489568-47E0D01C-F3CB-4152-8265-8BEA5D6A3641Q35097988-6BDE73FB-3146-49F2-A8CF-D8BE95B47BA6Q37707897-7C4A05F6-5C28-403F-A439-8BCE4EFEB997Q38027121-2C5E1E06-2B96-43DB-8E3D-01862E31B187Q38787111-8BB14CAC-F80B-48EA-B803-B9BE0A6B2C6BQ39016398-2FEB2723-DCDE-4E4D-BEA4-9CA9FF36A27DQ39946569-5DAC5DB8-67DA-4701-A7FF-CB21E0E52152Q41856429-FC125317-AB11-4B30-9FAE-25B105C1C614Q41882250-2B51617A-B5AF-4934-BCEE-E98B892E6686Q53928238-D5357B14-4568-4D6E-A147-BA53D958D86CQ57060621-8F85B238-2033-4D44-B208-A55F59DE6D91
P2860
Modelling reveals kinetic advantages of co-transcriptional splicing
description
2011 nî lūn-bûn
@nan
2011 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2011 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2011年の論文
@ja
2011年論文
@yue
2011年論文
@zh-hant
2011年論文
@zh-hk
2011年論文
@zh-mo
2011年論文
@zh-tw
2011年论文
@wuu
name
Modelling reveals kinetic advantages of co-transcriptional splicing
@ast
Modelling reveals kinetic advantages of co-transcriptional splicing
@en
Modelling reveals kinetic advantages of co-transcriptional splicing
@nl
type
label
Modelling reveals kinetic advantages of co-transcriptional splicing
@ast
Modelling reveals kinetic advantages of co-transcriptional splicing
@en
Modelling reveals kinetic advantages of co-transcriptional splicing
@nl
prefLabel
Modelling reveals kinetic advantages of co-transcriptional splicing
@ast
Modelling reveals kinetic advantages of co-transcriptional splicing
@en
Modelling reveals kinetic advantages of co-transcriptional splicing
@nl
P2093
P2860
P1476
Modelling reveals kinetic advantages of co-transcriptional splicing
@en
P2093
Jean D Beggs
Ross D Alexander
Stuart Aitken
P2860
P304
P356
10.1371/JOURNAL.PCBI.1002215
P577
2011-10-13T00:00:00Z