A dual origin of the Xist gene from a protein-coding gene and a set of transposable elements
about
Molecular evolution of the non-coding eosinophil granule ontogeny transcriptComprehensive transcriptome analysis reveals novel genes involved in cardiac glycoside biosynthesis and mlncRNAs associated with secondary metabolism and stress response in Digitalis purpureaEvidence for bacterial origin of heat shock RNA-1Function and evolution of the long noncoding RNA circuitry orchestrating X-chromosome inactivation in mammalsTransposable elements at the center of the crossroads between embryogenesis, embryonic stem cells, reprogramming, and long non-coding RNAsLong Intergenic Non-Coding RNAs: Novel Drivers of Human Lymphocyte DifferentiationVolatile evolution of long noncoding RNA repertoires: mechanisms and biological implicationsAdvances in understanding chromosome silencing by the long non-coding RNA XistLong noncoding RNAs: past, present, and futureOrigin and evolution of spliceosomal intronsLncRNAs: emerging players in gene regulation and disease pathogenesisConservation of the Exon-Intron Structure of Long Intergenic Non-Coding RNA Genes in Eutherian MammalsVariability of sequence surrounding the Xist gene in rodents suggests taxon-specific regulation of X chromosome inactivationComparative analysis of the primate X-inactivation center region and reconstruction of the ancestral primate XIST locusStructural architecture of the human long non-coding RNA, steroid receptor RNA activator.RNA Duplex Map in Living Cells Reveals Higher-Order Transcriptome StructureA system for imaging the regulatory noncoding Xist RNA in living mouse embryonic stem cells.Transposable Element Insertions in Long Intergenic Non-Coding RNA Genes.Evolutionary conservation of orthoretroviral long terminal repeats (LTRs) and ab initio detection of single LTRs in genomic dataThe sequence, structure and evolutionary features of HOTAIR in mammalsThe RIDL hypothesis: transposable elements as functional domains of long noncoding RNAsNegative correlation between expression level and evolutionary rate of long intergenic noncoding RNAs.Ftx is a non-coding RNA which affects Xist expression and chromatin structure within the X-inactivation center region.Epigenetic modifications on X chromosomes in marsupial and monotreme mammals and implications for evolution of dosage compensation.Hidden treasures in unspliced EST data.Transposable elements are major contributors to the origin, diversification, and regulation of vertebrate long noncoding RNAs.Identification of the porcine XIST gene and its differential CpG methylation status in male and female pig cellsMapping of Replication Origins in the X Inactivation Center of Vole Microtus levis Reveals Extended Replication Initiation ZoneDosage compensation of sex chromosome genes in eukaryotesLong non-coding RNAs in corticogenesis: deciphering the non-coding code of the brainDynamic interplay and function of multiple noncoding genes governing X chromosome inactivation.The evolutionary pathway of x chromosome inactivation in mammalsXIST-induced silencing of flanking genes is achieved by additive action of repeat a monomers in human somatic cellsA Genomic Analysis of Factors Driving lincRNA Diversification: Lessons from PlantsProgress and prospects toward our understanding of the evolution of dosage compensation.lincRNAs: genomics, evolution, and mechanisms.Mechanistic concepts in X inactivation underlying dosage compensation in mammals.The single active X in human cells: evolutionary tinkering personified.Non-coding RNAs in the development and pathogenesis of eukaryotic microbes.The making of a Barr body: the mosaic of factors that eXIST on the mammalian inactive X chromosome.
P2860
Q21131260-8951EEFD-A5A6-490D-B4E3-DACFE521A755Q24599149-1DC0785D-F2B2-4657-9196-3FA893F94B65Q24657545-D5AECACE-3DF5-4FE0-B18A-6E4E27ABBA97Q26750257-B33178EF-4050-49AB-8723-3C2C3700ACE5Q26778697-054ADE8A-837C-4F59-9477-285CC6FCCCB0Q26828561-3FADBAEC-96CD-41E1-88C9-47A424FEC27FQ26829133-2D9AEA15-43E5-45C5-B2A9-06C302904C0AQ26991861-72BD75F0-D13B-40F9-B624-2E547C339AA2Q26991873-19830715-55B3-442A-8A19-EB0BC2F77A0FQ27498824-3D7C87E3-0D41-46C2-A17E-3B4554B8C19FQ28081981-E1B8DA9A-D925-4615-A961-63AAC06C3784Q28598276-1636FB09-5A10-48FB-BE15-DA30C42C4109Q28741836-32E0CDC4-220F-4E65-A074-FF0113CB9A4AQ28744046-BED28CA8-B52D-4C40-AE92-5A5DF34AF969Q30413466-163D27D6-871D-4A8C-9703-153C356D9C23Q30460141-D5BECC2A-021E-45FE-99C1-DEC15CBF5188Q30502443-5CC2FB31-1B7E-44D1-A63D-1F755E4E31C5Q30653831-9805CCD4-AECE-4C48-81C8-C55158D683C3Q33429974-777B7E22-1784-433F-83AC-49E1AC4387E9Q33874413-7D3C9D13-67BF-44CE-906C-F481F59E518DQ33967993-F1CE5AB2-8F69-4A85-A29B-FA151579149DQ34071155-84EAC41B-5B4B-4559-A70C-5810DB8A4EC1Q34152518-516AD97B-D65D-46CC-96D6-1773C69EB071Q34200122-041E7D65-6974-43E2-98C7-EBF2B78F6A07Q34224677-9A6A73E2-84FF-422A-B074-A5CD36E70A23Q34699808-88E72A2D-4BF0-489D-B8C1-D69FFE629F7AQ34989104-F24613AD-3480-407F-A0B2-02EEBE5B3293Q35650864-818889D6-F8D9-47A5-AF65-86D3F679E0D6Q35944433-626DF5FF-9D9B-4EAD-9390-17D3AD2C1CA8Q36394663-2697BD9F-B1E3-4FFB-B303-B3C498ECE653Q36447505-CB4C2019-9974-4C66-84BE-A92FE487A02AQ36962619-9C49A2E0-3720-42E6-A3C5-DF4DA169E20DQ37071834-8A5F5408-1FFD-419F-AE1B-895D2130C755Q37242050-0BA98415-E482-4047-A0BF-DD26F4968ADFQ37378244-39A1EA76-43E1-48EB-A054-B15936C662A0Q37584905-214B51CC-171E-4181-B82B-E205524DB509Q37672950-8269E3AA-7245-4443-B805-1333C6F8BB86Q37886786-D4D6CF03-C4E7-4F28-BFA1-7B00A572DF55Q38129207-E1334F0C-3689-4466-AA43-19287BA3DFC8Q38568659-DC76ED5B-3390-4465-BAA8-1152BED1FD12
P2860
A dual origin of the Xist gene from a protein-coding gene and a set of transposable elements
description
2008 nî lūn-bûn
@nan
2008 թուականին հրատարակուած գիտական յօդուած
@hyw
2008 թվականին հրատարակված գիտական հոդված
@hy
2008年の論文
@ja
2008年論文
@yue
2008年論文
@zh-hant
2008年論文
@zh-hk
2008年論文
@zh-mo
2008年論文
@zh-tw
2008年论文
@wuu
name
A dual origin of the Xist gene ...... a set of transposable elements
@ast
A dual origin of the Xist gene ...... a set of transposable elements
@en
A dual origin of the Xist gene ...... a set of transposable elements
@en-gb
A dual origin of the Xist gene ...... a set of transposable elements
@nl
type
label
A dual origin of the Xist gene ...... a set of transposable elements
@ast
A dual origin of the Xist gene ...... a set of transposable elements
@en
A dual origin of the Xist gene ...... a set of transposable elements
@en-gb
A dual origin of the Xist gene ...... a set of transposable elements
@nl
prefLabel
A dual origin of the Xist gene ...... a set of transposable elements
@ast
A dual origin of the Xist gene ...... a set of transposable elements
@en
A dual origin of the Xist gene ...... a set of transposable elements
@en-gb
A dual origin of the Xist gene ...... a set of transposable elements
@nl
P2093
P2860
P50
P3181
P1433
P1476
A dual origin of the Xist gene ...... a set of transposable elements
@en
P2093
Alexander I Shevchenko
Eugeny A Elisaphenko
Nikolay N Kolesnikov
P2860
P3181
P356
10.1371/JOURNAL.PONE.0002521
P407
P577
2008-06-25T00:00:00Z