Add to ORKGAlu repeated sequences arising in DNA of the human lineage during about the last 30 million years are closely similar to a modern consensus. Alu repeats arising at earlier times share correlated blocks of differences from the current consensus at diagnostic positions in the sequence. Using these 26 positions, we can recognize four subfamilies and the older ones are each successively closer to the 7SL sequence. It appears that there has existed a series of conserved genes that are the primary sources of the Alu repeat family, presumably through retroposition. These genes have probably replaced each other in overlapping relays during the evolution of primates
AbstractAlu sequences are frequently encountered during study of human genomic nucleic acid and form...
<div><p>Alus are the most abundant and successful short interspersed nuclear elements found in prima...
Background: Alu elements are short (∼300 bp) interspersed elements that amplify in primate genomes t...
Alu repeated sequences arising in DNA of the human lineage during about the last 30 million years ar...
A significant fraction of human Alu repeated sequences are members of the precise, recently inserted...
The primate Alu interspersed repeats can be subdivided into classes on the basis of shared nucleotid...
Mutations have been examined in the 1500 interspersed Alu repeats of human DNA that have been sequen...
Screening of a human genomic library with an oligonucleotide probe specific for one of the young sub...
Motivation: Transposon-derived Alu repeats are exclusively associated with primate genomes. They hav...
The total numbers of copies of two repeat families, L1 (Kpn I) and Alu, have been measured in the DN...
The HS subfamily of Alu sequences is comprised of a group of nearly identical members. Individual su...
The primate Alu family of repetitive elements has been widely characterized. This ubiquitous class o...
Relative to genomes of other sequenced organisms, the human genome appears particularly enriched for...
A statistical analysis of a set of genomic human Alu elements is based on a published alignment and ...
The cloning of DNA fragments derived from the (beta)-like globin gene cluster of normal and (beta)(\...
AbstractAlu sequences are frequently encountered during study of human genomic nucleic acid and form...
<div><p>Alus are the most abundant and successful short interspersed nuclear elements found in prima...
Background: Alu elements are short (∼300 bp) interspersed elements that amplify in primate genomes t...
Alu repeated sequences arising in DNA of the human lineage during about the last 30 million years ar...
A significant fraction of human Alu repeated sequences are members of the precise, recently inserted...
The primate Alu interspersed repeats can be subdivided into classes on the basis of shared nucleotid...
Mutations have been examined in the 1500 interspersed Alu repeats of human DNA that have been sequen...
Screening of a human genomic library with an oligonucleotide probe specific for one of the young sub...
Motivation: Transposon-derived Alu repeats are exclusively associated with primate genomes. They hav...
The total numbers of copies of two repeat families, L1 (Kpn I) and Alu, have been measured in the DN...
The HS subfamily of Alu sequences is comprised of a group of nearly identical members. Individual su...
The primate Alu family of repetitive elements has been widely characterized. This ubiquitous class o...
Relative to genomes of other sequenced organisms, the human genome appears particularly enriched for...
A statistical analysis of a set of genomic human Alu elements is based on a published alignment and ...
The cloning of DNA fragments derived from the (beta)-like globin gene cluster of normal and (beta)(\...
AbstractAlu sequences are frequently encountered during study of human genomic nucleic acid and form...
<div><p>Alus are the most abundant and successful short interspersed nuclear elements found in prima...
Background: Alu elements are short (∼300 bp) interspersed elements that amplify in primate genomes t...