Alu element

An Alu element is a short stretch of DNA originally characterized by the action of the Alu restriction endonuclease. Alu elements of different kinds occur in large numbers in primate genomes. In fact, Alu elements are the most abundant mobile elements in the human genome. They are derived from the small cytoplasmic 7SL RNA, a component of the signal recognition particle. The event, when a copy of the 7SL RNA became a precursor of the Alu elements, took place in the genome of an ancestor of Supraprimates.

Alu insertions have been implicated in several inherited human diseases and in various forms of cancer.

The study of Alu elements has also been important in elucidating human population genetics and the evolution of primates, including the evolution of humans.



The Alu family
The Alu family is a family of repetitive elements in the Human genome. Alu elements are about 300 base pairs long and are therefore classified as short interspersed elements (SINEs) among the class of repetitive DNA elements.

There are over one million Alu elements interspersed throughout the human genome, and it is estimated that about 10.7% of the human genome consists of Alu sequences. However less than 0.5% are polymorphic. In 1988 Alu elements were split in two major subfamilies known as AluJ and AluS, and numerous sub-subfamilies. Later on, a sub-subfamily of AluS which included active Alu elements was given a separate name AluY. The discovery of Alu subfamilies led to the hypothesis of master/source genes, and provided the definitive link between transposable elements (active elements) and interspersed repetitive DNA (mutated copies of active elements).

7SL RNA
The sequence of the DNA for the 299 nucleotide long 7SL RNA :

gccgggcgcggtggcgcgtgcctgtagtcccagctactcgggaggctgAGGCTGgaGGATCGcttgAGTCCAggAGTTCTgggct gtagtgcgctatgccgatcgggtgtccgcactaagttcggcatcaatatggtgacctcccgggagcgggggaccaccaggttgcctaagga ggggtgaaccggcccaggtcggaaacggagcaggtcaaaactcccgtgctgatcagtagtgggatcgcgcctgtgaatagccactgcactc cagcctgggcaacatagcgagaccccgtctct

The functional retinoic acid response element hexamer sites are in upper case and overlap the internal transcriptional promoter. The recognition sequence of the Alu endonuclease is 5' AG/CT 3'; that is, the enzyme cuts the DNA segment between the guanine and cytosine residues (in bold above). The Alu endonuclease is so-named because it was isolated from Arthrobacter luteus.

Alu elements
Alu elements are retrotransposons and look like DNA copies made from RNA polymerase III-encoded RNAs. Alu elements do not encode for protein products and depend on LINE retrotransposons for their replication.

Alu elements in primates form a fossil record that is relatively easy to decipher because Alu elements insertion events have a characteristic signature that is both easy to read and faithfully recorded in the genome from generation to generation. The study of Alu elements thus reveals details of ancestry because individuals will only share a particular Alu element insertion if they have a common ancestor.

Most human Alu element insertions can be found in the corresponding positions in the genomes of other primates, but about 7,000 Alu insertions are unique to humans.

Alu insertions and human disease
Alu insertions are sometimes disruptive and can result in inherited disorders. However, most Alu insertions act as markers that segregate with the disease so the presence of a particular Alu allele does not mean that the carrier will definitely get the disease. The first report of Alu-mediated recombination causing a prevalent inherited predisposition to cancer was a 1995 report about hereditary nonpolyposis colorectal cancer.

The following human diseases have been linked with Alu insertions:
 * Breast cancer
 * Ewing's sarcoma
 * Familial hypercholesterolemia
 * Hemophilia
 * Neurofibromatosis
 * Diabetes mellitus type II

And the following diseases have been associated with single-nucleotide DNA variations in Alu elements impacting transcription levels :
 * Alzheimer's disease
 * Lung cancer
 * Gastric cancer