Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
about
Viruses and mobile elements as drivers of evolutionary transitionsWas the evolutionary road towards adaptive immunity paved with endothelium?Self-synthesizing transposons: unexpected key players in the evolution of viruses and defense systems.Evolution of RNA- and DNA-guided antivirus defense systems in prokaryotes and eukaryotes: common ancestry vs convergenceSplendor and misery of adaptation, or the importance of neutral null for understanding evolutionThe casposon-encoded Cas1 protein from Aciduliprofundum boonei is a DNA integrase that generates target site duplications.Mobile genetic elements: in silico, in vitro, in vivoRecent Mobility of Casposons, Self-Synthesizing Transposons at the Origin of the CRISPR-Cas ImmunityCollaboration of RAG2 with RAG1-like proteins during the evolution of V(D)J recombination.Structure of the germline genome of Tetrahymena thermophila and relationship to the massively rearranged somatic genome.Evolutionary impact of transposable elements on genomic diversity and lineage-specific innovation in vertebrates.The RAG transposon is active through the deuterostome evolution and domesticated in jawed vertebrates.Exploring the read-write genome: mobile DNA and mammalian adaptation.Riches in RAGs: Revealing the V(D)J Recombinase through High-Resolution Structures.New insights into the evolutionary origins of the recombination-activating gene proteins and V(D)J recombination.Transposable Element Domestication As an Adaptation to Evolutionary Conflicts.[The CRISPR case, « ready-made » mutations and Lamarckian evolution of an adaptive immunity system].Discovery of an Active RAG Transposon Illuminates the Origins of V(D)J Recombination.RNase H As Gene Modifier, Driver of Evolution and Antiviral Defense.Evolving adaptive immunity.Transposable elements in the Anopheles funestus transcriptome.Living Organisms Author Their Read-Write Genomes in Evolution.Human transposable elements in Repbase: genomic footprints from fish to humans.Mobile Genetic Elements and Evolution of CRISPR-Cas Systems: All the Way There and Back.Structural insights into the mechanism of double strand break formation by Hermes, a hAT family eukaryotic DNA transposase
P2860
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P2860
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
description
2015 nî lūn-bûn
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2015 թուականին հրատարակուած գիտական յօդուած
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2015 թվականին հրատարակված գիտական հոդված
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2015年の論文
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2015年論文
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2015年論文
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2015年論文
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2015年論文
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2015年論文
@zh-tw
2015年论文
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name
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@ast
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en-gb
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@nl
type
label
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@ast
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en-gb
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@nl
prefLabel
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@ast
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en-gb
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@nl
P2860
P3181
P1433
P1476
Evolution of the RAG1-RAG2 locus: both proteins came from the same transposon
@en
P2093
Vladimir V Kapitonov
P2860
P2888
P3181
P356
10.1186/S13062-015-0055-8
P407
P577
2015-01-01T00:00:00Z
P5875
P6179
1019613983