Add to ORKGAlu elements represent the largest family of human mobile elements in copy number. A controversial issue with implications for both Alu biology and human genome evolution is whether selective pressures are affecting Alu elements on a large scale. To address this issue, we analyzed the genomic distribution of the three youngest known human Alu subfamilies (Ya5a2, Ya8 and Yb9) in conjunction with their insertion polymorphism status in the human population, since selection can only act on polymorphic elements. Our results indicate that: (i) polymorphic and fixed recently integrated Alu elements are found in genomic regions whose GC contents are statistically indistinguishable, and (ii) recently integrated Alu elements are inserted randomly, re...
SummaryThe human genome contains approximately one million Alu repetitive elements comprising 10% of...
Background: The human genome contains approximately one million Alu elements which comprise more tha...
© The Author(s) 2015. The goal of the 1000 Genomes Consortium is to characterize human genome struct...
Alu elements are the most successful SINEs (Short INterspersed Elements) in primate genomes and have...
The first draft of the human genome has revealed enormous variability in the global distribution of ...
Alu elements comprise \u3e10% of the human genome. We have used a computational biology approach to ...
Alu elements are the most active and predominant type of short interspersed elements (SINEs) in the ...
As a family, Alu retrotransposons compose the single largest component of the human genome [2]. The...
Alu elements are not distributed homogeneously throughout the human genome: old elements are prefere...
Mobile elements such as Alu repeats have substantially altered the architecture of the human genome,...
The currently-accepted dogma when analysing human Alu transposable elements is that ‘young’ Alu elem...
The distribution in the human genome of the largest family of mobile elements, the Alu sequences, ha...
Background: Alu elements are short (∼300 bp) interspersed elements that amplify in primate genomes t...
Motivation: Transposon-derived Alu repeats are exclusively associated with primate genomes. They hav...
Identifying features shaping the architecture of sequence variations is important for understanding ...
SummaryThe human genome contains approximately one million Alu repetitive elements comprising 10% of...
Background: The human genome contains approximately one million Alu elements which comprise more tha...
© The Author(s) 2015. The goal of the 1000 Genomes Consortium is to characterize human genome struct...
Alu elements are the most successful SINEs (Short INterspersed Elements) in primate genomes and have...
The first draft of the human genome has revealed enormous variability in the global distribution of ...
Alu elements comprise \u3e10% of the human genome. We have used a computational biology approach to ...
Alu elements are the most active and predominant type of short interspersed elements (SINEs) in the ...
As a family, Alu retrotransposons compose the single largest component of the human genome [2]. The...
Alu elements are not distributed homogeneously throughout the human genome: old elements are prefere...
Mobile elements such as Alu repeats have substantially altered the architecture of the human genome,...
The currently-accepted dogma when analysing human Alu transposable elements is that ‘young’ Alu elem...
The distribution in the human genome of the largest family of mobile elements, the Alu sequences, ha...
Background: Alu elements are short (∼300 bp) interspersed elements that amplify in primate genomes t...
Motivation: Transposon-derived Alu repeats are exclusively associated with primate genomes. They hav...
Identifying features shaping the architecture of sequence variations is important for understanding ...
SummaryThe human genome contains approximately one million Alu repetitive elements comprising 10% of...
Background: The human genome contains approximately one million Alu elements which comprise more tha...
© The Author(s) 2015. The goal of the 1000 Genomes Consortium is to characterize human genome struct...