Add to ORKGRetrotransposons have had a considerable impact on the overall architecture of the human genome. Currently, there are three lineages of retrotransposons (Alu, L1, and SVA) that are believed to be actively replicating in humans. While estimates of their copy number, sequence diversity, and levels of insertion polymorphism can readily be obtained from existing genomic sequence data and population sampling, a detailed understanding of the temporal pattern of retrotransposon amplification remains elusive. Here we pose the question of whether, using genomic sequence and population frequency data from extant taxa, one can adequately reconstruct historical amplification patterns. To this end, we developed a computer simulation that incorporates se...
Gene duplication is one of the most important mechanisms for creating new genes and generating genom...
Their ability to move within genomes gives transposable elements an intrinsic propensity to affect g...
Human genomes are now being rapidly sequenced, but not all forms of genetic variation are routinely ...
<div><p>Retrotransposons have had a considerable impact on the overall architecture of the human gen...
Retrotransposons have had a considerable impact on the overall architecture of the human genome. Cur...
Retrotransposons have had a considerable impact on the overall architecture of the human genome. Cur...
We analyzed 83 fully sequenced great ape genomes for mobile element insertions, discovering a total ...
We analyzed 83 fully sequenced great ape genomes for mobile element insertions, predicting a total o...
One of the primary forces driving genome evolution is retrotranscription. In addition to creating ne...
Understanding gene creation is essential to the study of human evolution. Duplication followed by sp...
The long interspersed element-1 (LINE-1 or L1) is a highly successful retrotransposon in mammals. L1...
Transposable elements are biologically important components of eukaryote genomes. In particular, non...
Human retrotransposons are genetic elements that copy themselves into new locations in the genome by...
In primates and other animals, reverse transcription of mRNA followed by genomic integration creates...
Background: Transposable elements are biologically important components of eukaryote genomes. In par...
Gene duplication is one of the most important mechanisms for creating new genes and generating genom...
Their ability to move within genomes gives transposable elements an intrinsic propensity to affect g...
Human genomes are now being rapidly sequenced, but not all forms of genetic variation are routinely ...
<div><p>Retrotransposons have had a considerable impact on the overall architecture of the human gen...
Retrotransposons have had a considerable impact on the overall architecture of the human genome. Cur...
Retrotransposons have had a considerable impact on the overall architecture of the human genome. Cur...
We analyzed 83 fully sequenced great ape genomes for mobile element insertions, discovering a total ...
We analyzed 83 fully sequenced great ape genomes for mobile element insertions, predicting a total o...
One of the primary forces driving genome evolution is retrotranscription. In addition to creating ne...
Understanding gene creation is essential to the study of human evolution. Duplication followed by sp...
The long interspersed element-1 (LINE-1 or L1) is a highly successful retrotransposon in mammals. L1...
Transposable elements are biologically important components of eukaryote genomes. In particular, non...
Human retrotransposons are genetic elements that copy themselves into new locations in the genome by...
In primates and other animals, reverse transcription of mRNA followed by genomic integration creates...
Background: Transposable elements are biologically important components of eukaryote genomes. In par...
Gene duplication is one of the most important mechanisms for creating new genes and generating genom...
Their ability to move within genomes gives transposable elements an intrinsic propensity to affect g...
Human genomes are now being rapidly sequenced, but not all forms of genetic variation are routinely ...