Add to ORKGRepetitive elements (REs) make up the vast majority of the mammalian genomes. We identified species-specific genomic libraries of RE arrays. The non-random configurations of RE arrays suggest their functions. We tested whether RE arrays undergo age- and tissue/cell-specific rearrangements. An RE array of C57BL/6J mice, containing tandem repeats of a mosaic of transposable REs, was selected to examine rearrangements in different ages and tissues. There were marked changes in the array configuration in the genomes of the skin and brain in all mice of six weeks and older, whereas the heart and liver had alterations at 29weeks. The temporal variations were confirmed by identifying putative rearrangement junctions. Temporal and spatial rearrange...
AbstractMouse and rat genomic sequences permit us to obtain a global view of evolutionary rearrangem...
Repetitive DNA elements have previously been considered junk DNA because they are not protein codi...
Mobile elements and repetitive genomic regions are sources of lineage-specific genomic innovation an...
The entirety of all protein coding sequences is reported to represent a small fraction (~2%) of the ...
<p>The RE arrays identified in the chromosomes X and Y of the reference mouse genome were compared t...
AbstractGenes occupy ~3% of the human and mouse genomes whereas repetitive elements (REs), whose bio...
Although analysis of genome rearrangements was pioneered by Dobzhansky and Sturtevant 65 years ago, ...
International audienceThe potential roles of the numerous repetitive elements found in the genomes o...
The potential roles of the numerous repetitive el-ements found in the genomes of multi-cellular or-g...
Background: Comparative mapping provides new insights into the evolutionary history of genomes. In p...
Transposable repetitive elements, named the "TREome," represent ~40% of the mouse genome. We postula...
Recent evidence suggests that the timing of DNA replication is coordinated across megabase-scale dom...
Retrotransposon mobilization is a major source of genome evolution. However, the functional conseque...
Expanded simple tandem repeat (ESTR) loci belong to the class of highly unstable loci in the mouse g...
International audienceTelomeres are ribonucleoprotein structures protecting the physical ends of euk...
AbstractMouse and rat genomic sequences permit us to obtain a global view of evolutionary rearrangem...
Repetitive DNA elements have previously been considered junk DNA because they are not protein codi...
Mobile elements and repetitive genomic regions are sources of lineage-specific genomic innovation an...
The entirety of all protein coding sequences is reported to represent a small fraction (~2%) of the ...
<p>The RE arrays identified in the chromosomes X and Y of the reference mouse genome were compared t...
AbstractGenes occupy ~3% of the human and mouse genomes whereas repetitive elements (REs), whose bio...
Although analysis of genome rearrangements was pioneered by Dobzhansky and Sturtevant 65 years ago, ...
International audienceThe potential roles of the numerous repetitive elements found in the genomes o...
The potential roles of the numerous repetitive el-ements found in the genomes of multi-cellular or-g...
Background: Comparative mapping provides new insights into the evolutionary history of genomes. In p...
Transposable repetitive elements, named the "TREome," represent ~40% of the mouse genome. We postula...
Recent evidence suggests that the timing of DNA replication is coordinated across megabase-scale dom...
Retrotransposon mobilization is a major source of genome evolution. However, the functional conseque...
Expanded simple tandem repeat (ESTR) loci belong to the class of highly unstable loci in the mouse g...
International audienceTelomeres are ribonucleoprotein structures protecting the physical ends of euk...
AbstractMouse and rat genomic sequences permit us to obtain a global view of evolutionary rearrangem...
Repetitive DNA elements have previously been considered junk DNA because they are not protein codi...
Mobile elements and repetitive genomic regions are sources of lineage-specific genomic innovation an...