about
Endogenous mechanisms for the origins of spliceosomal intronsIdentifying the mechanisms of intron gain: progress and trendsOrigin and evolution of spliceosomal intronsDiversity of protein and mRNA forms of mammalian methionine sulfoxide reductase B1 due to intronization and protein processingTheory of the origin, evolution, and nature of lifeExtensive intron gain in the ancestor of placental mammalsRethinking gene regulatory networks in light of alternative splicing, intrinsically disordered protein domains, and post-translational modificationsIntronization, de-intronization and intron sliding are rare in CryptococcusNonsense-mediated decay enables intron gain in Drosophila.The Genomic Impact of Gene Retrocopies: What Have We Learned from Comparative Genomics, Population Genomics, and Transcriptomic Analyses?The role of transposable elements in the evolution of non-mammalian vertebrates and invertebrates.Mechanisms of intron gain and loss in Drosophila.Analysis of CACTA transposases reveals intron loss as major factor influencing their exon/intron structure in monocotyledonous and eudicotyledonous hosts.PIGD: a database for intronless genes in the Poaceae.A genome-wide identification and analysis of the basic helix-loop-helix transcription factors in the ponerine ant, Harpegnathos saltatorUnmasking alternative splicing inside protein-coding exons defines exitrons and their role in proteome plasticity.Recurrent loss of specific introns during angiosperm evolution.A simple model to explain evolutionary trends of eukaryotic gene architecture and expression: how competition between splicing and cleavage/polyadenylation factors may affect gene expression and splice-site recognition in eukaryotesMechanisms of intron loss and gain in the fission yeast Schizosaccharomyces.Spliced DNA sequences in the Paramecium germline: their properties and evolutionary potentialOn the path to genetic novelties: insights from programmed DNA elimination and RNA splicing.Cis-acting signals modulate the efficiency of programmed DNA elimination in Paramecium tetraurelia.mRNA-Associated Processes and Their Influence on Exon-Intron Structure in Drosophila melanogaster.A Genome-Wide Identification and Analysis of the Basic Helix-Loop-Helix Transcription Factors in Brown Planthopper, Nilaparvata lugens.Ubiquitous internal gene duplication and intron creation in eukaryotes.Whence genes in pieces: reconstruction of the exon-intron gene structures of the last eukaryotic common ancestor and other ancestral eukaryotes.Exploring the Impact of Cleavage and Polyadenylation Factors on Pre-mRNA Splicing Across Eukaryotes.Splice Sites Seldom Slide: Intron Evolution in Oomycetes.Tandem repeats modify the structure of human genes hosted in segmental duplications.High-Resolution Expression Map of the Arabidopsis Root Reveals Alternative Splicing and lincRNA Regulation.Extensive structural renovation of retrogenes in the evolution of the Populus genome.Origin and evolution of a new retained intron on the vulcan gene in Drosophila melanogaster subgroup species.U1 snRNP telescripting regulates a size-function-stratified human genome.The effects of polymorphisms in IL-2, IFN-γ, TGF-β2, IgL, TLR-4, MD-2, and iNOS genes on resistance to Salmonella enteritidis in indigenous chickens.The role of reverse transcriptase in intron gain and loss mechanisms.
P2860
Q24604817-FE9DF6A3-245E-43E8-B0EC-F456E9A9BAD1Q26995241-09358B6A-8A49-476E-9C5C-9DDC653AF7BAQ27498824-866D0AFE-6712-4BDF-B7F2-46DF49937DE1Q28586349-3AC4E2ED-59A3-4AD4-AB15-E83F38585095Q28655005-59AA34BE-3B95-42C6-A88D-67CC746FE25EQ28732854-4E555660-6667-430A-B4FB-6A8072C9257EQ30372664-2C41E634-671D-443D-8C4A-D5340994F3A7Q33491785-A6659A74-87E9-4A47-AC6E-A6602792D3DDQ33526993-1D519F4B-E883-4F0A-99CC-1509F704420CQ33797238-60D268DF-E55A-4CAB-9C42-438ADB16E556Q34024461-94B62663-2C2C-4CC1-91D6-633EA7097F41Q34105725-03465CEE-7A9E-44B9-907A-38CD42AFDE84Q34152330-EEA60BEB-5F1F-4155-8387-9DC6DBDE877EQ34333088-9BE04AEB-F1D5-4C6F-B163-4F3CE91C29CBQ34400147-84694168-0624-4632-9C4D-805FDD4E50B9Q34474706-815EE61C-3284-4ECE-86B6-5DA7C0218616Q34633646-2F5C8173-A116-4F34-8E6A-C4BA984CAAB2Q34660002-F176FE6B-0166-49D8-8D4D-A0BF546BB0A1Q34684856-87D10D99-0555-4045-8B97-D3FAA246A4C3Q34757934-C57D7178-703F-4339-A1FF-4050197049F3Q35682198-2E81503E-55F7-4E71-AAD2-264F4D9E3C6AQ35754334-3C6C8E20-C561-47D6-AB77-BCBCEAFBAE02Q36016026-6BB8AB73-8657-46FD-A74D-8DF88056396FQ37449708-D27A10BB-F95F-469A-B450-AC8FE71780B9Q37469788-0BCB5297-C36F-4FA3-BD86-277C6FC263B5Q38058756-52C0F58C-BB85-49B3-8D21-2975F931E129Q40954072-AA31B660-9744-4E2D-8374-0A2E1A7B1C33Q41012230-160D41AD-108C-44BB-A8C9-882F7386D306Q41848828-2F0DCFC0-F651-492D-B67C-6C0FEB0B5050Q42774916-39176ED9-46C5-46BA-9E52-95DBD96C07CDQ46102354-D069AECE-BB9F-424A-9469-F301D98A199FQ46766646-76B26414-616F-4E6C-8D50-2B301FDE3960Q47149918-E402B56A-BD92-4A57-82FE-81F2B1C73BEBQ50020448-4F277C03-3DEA-4EF1-8C85-B7F431C68D9EQ51543652-50B075D8-1756-4BB2-99EE-7790ABB2ED68
P2860
description
2008 nî lūn-bûn
@nan
2008 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2008 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年学术文章
@wuu
2008年学术文章
@zh-cn
2008年学术文章
@zh-hans
2008年学术文章
@zh-my
2008年学术文章
@zh-sg
2008年學術文章
@yue
name
Where do introns come from?
@ast
Where do introns come from?
@en
type
label
Where do introns come from?
@ast
Where do introns come from?
@en
prefLabel
Where do introns come from?
@ast
Where do introns come from?
@en
P2860
P1433
P1476
Where do introns come from?
@en
P2093
Francesco Catania
Michael Lynch
P2860
P356
10.1371/JOURNAL.PBIO.0060283
P407
P577
2008-11-01T00:00:00Z