about
Alu sequences in undifferentiated human embryonic stem cells display high levels of A-to-I RNA editingGenomic gems: SINE RNAs regulate mRNA productionScreening of human SNP database identifies recoding sites of A-to-I RNA editingEpigenetic principles and mechanisms underlying nervous system functions in health and diseaseThe birth of new exons: mechanisms and evolutionary consequencesReprogramming, Circular Reasoning and Self versus Non-self: One-Stop Shopping with RNA EditingRetrotransposons as regulators of gene expressionA-to-I editing of coding and non-coding RNAs by ADARsPhysiology of the read-write genomeThe ADAR protein familySINEsFunctions of the RNA Editing Enzyme ADAR1 and Their Relevance to Human DiseasesStructural Variation of Alu Element and Human DiseaseRNA editing by ADAR1 prevents MDA5 sensing of endogenous dsRNA as nonselfFunctions and regulation of RNA editing by ADAR deaminasesThe dynamic epitranscriptome: A to I editing modulates genetic informationMammalian conserved ADAR targets comprise only a small fragment of the human editosomeNuclear function of AlusCharacterizing of functional human coding RNA editing from evolutionary, structural, and dynamic perspectives.Maintenance of transposon-free regions throughout vertebrate evolutionIntronic Alus influence alternative splicing.Where do introns come from?A mammalian reporter system for fast and quantitative detection of intracellular A-to-I RNA editing levels.Characteristics of transposable element exonization within human and mouse.Large-scale analysis of structural, sequence and thermodynamic characteristics of A-to-I RNA editing sites in human Alu repeatsEvidence for transcriptome-wide RNA editing among Sus scrofa PRE-1 SINE elements.The extent of Ds1 transposon to enrich transcriptomes and proteomes by exonization.RNA editing: a driving force for adaptive evolution?Consistent levels of A-to-I RNA editing across individuals in coding sequences and non-conserved Alu repeatsAlu elements shape the primate transcriptome by cis-regulation of RNA editingMolecular diversity through RNA editing: a balancing act.Adenosine-to-inosine RNA editing shapes transcriptome diversity in primates.The role of transposable elements in the evolution of non-mammalian vertebrates and invertebrates.Identification of widespread ultra-edited human RNAs.Sounds of silence: synonymous nucleotides as a key to biological regulation and complexity.A distant cis acting intronic element induces site-selective RNA editing.F11R expression upon hypoxia is regulated by RNA editingOligophrenin-1 (OPHN1), a gene involved in X-linked intellectual disability, undergoes RNA editing and alternative splicing during human brain development.One hundred million adenosine-to-inosine RNA editing sites: hearing through the noise.Functional Impact of RNA editing and ADARs on regulation of gene expression: perspectives from deep sequencing studies.
P2860
Q21136343-91348C0B-7E4E-4124-82F5-54601400F9BBQ24632289-24488B93-66B8-43B4-9DAC-2715A4E8A3CBQ24644302-04C047B8-148B-4302-A102-E28E12CF89B4Q24657549-64FDE316-94ED-4177-93A8-8A21EBF4E77DQ24682543-3282D88D-40A3-47E4-A40D-86A48039DA9FQ26741562-F0182AED-BE85-4E0C-8CDB-88193337F3D6Q26766514-BE88493E-7077-4E01-8ABC-3E598F0284DEQ26773402-C46F8EAE-6DC7-4191-89BB-6E947D6EDFE8Q26822420-AF60F39D-886B-4F70-A12A-320045CC73B5Q26858833-D447C0BF-FC9F-4C36-98BC-FD482E4697D3Q27016163-6FE5AAC8-1826-4C5D-84DA-77D490B0CAAFQ28078188-0622AAC4-3470-4F1A-944D-814C23B944A9Q28079396-9D15C156-15C0-471E-96D9-C26A2AC59E62Q28266296-7100118D-1B90-4B82-9B86-710414A900C0Q28274610-EF494472-9923-4120-9646-7CFE1DD87143Q28603994-0DE43F0B-D669-4427-9028-93AD4F8537ABQ28658383-02046BEA-08CD-4126-AFCC-FC24A3EC44D6Q28658599-4EC764C7-24D5-434B-A37D-9DE4B52B7A8CQ30365845-F3274862-8E71-4666-9B48-B3B2E121CF93Q33311422-FC19AD72-32E9-4AAA-8830-18B347D78072Q33372114-A1FF3695-BE37-4B8D-B60C-AF765089134AQ33391507-C3BA49CF-95CA-4BFA-9968-5FAB2E383014Q33522071-82821D8F-C138-4BB3-AFB6-30898396D0F1Q33598617-B52F167D-36BC-424B-B150-8046B607C5D0Q33643743-17284268-D317-4ABB-873C-03BC2A773887Q33652674-EFB6F49D-92C4-4E0B-9711-8BD271AA6CFFQ33690534-563CB8E1-E5B9-4FAF-85B0-386587A8DD20Q33691024-0D0E48B5-708C-4820-80A5-0D767A3F5A08Q33732152-EFE058F2-F792-43F1-AF1F-031637E85F88Q33742633-EBB2A686-91A1-42BF-9C9C-43537CA51DC1Q33833030-AB772E15-CD28-4B4B-A23C-D5B3254D86D6Q33982232-4A1E3968-C75C-4BF2-B128-55E1BA985781Q34024461-40670F36-9103-4850-B275-529B074D1F22Q34058176-10AD9969-F267-4656-98AA-683A1770864AQ34321074-D236B769-DA2F-4B69-8D62-F0437D4E7387Q34357627-8318C64B-2D14-427F-B6D4-5FDA98C40772Q35023344-3B857926-80EB-45B0-89B9-5AC6719EE38DQ35123027-819B9327-7DCA-46EF-B055-91DDD0016687Q35178261-BAD01AAA-9E7D-4966-85F3-0A0D48D03794Q35576026-CC2C2D42-C35B-404A-84AC-E329B85B6AB0
P2860
description
2007 nî lūn-bûn
@nan
2007 թուականին հրատարակուած գիտական յօդուած
@hyw
2007 թվականին հրատարակված գիտական հոդված
@hy
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
name
RNA-editing-mediated exon evolution
@ast
RNA-editing-mediated exon evolution
@en
RNA-editing-mediated exon evolution
@en-gb
RNA-editing-mediated exon evolution
@nl
type
label
RNA-editing-mediated exon evolution
@ast
RNA-editing-mediated exon evolution
@en
RNA-editing-mediated exon evolution
@en-gb
RNA-editing-mediated exon evolution
@nl
prefLabel
RNA-editing-mediated exon evolution
@ast
RNA-editing-mediated exon evolution
@en
RNA-editing-mediated exon evolution
@en-gb
RNA-editing-mediated exon evolution
@nl
P2093
P2860
P3181
P356
P1433
P1476
RNA-editing-mediated exon evolution
@en
P2093
Galit Lev-Maor
Rotem Sorek
P2860
P2888
P3181
P356
10.1186/GB-2007-8-2-R29
P407
P577
2007-01-01T00:00:00Z
P5875
P6179
1046720420