Transcript Alus
Alus Honors Genetics Lab What is an Alu • An Alu sequence is a short stretch of DNA characterized by the action of the Alu restriction endonuclease. • Alu sequences of different kinds occur in large numbers in primate genomes. In fact, Alu sequences are the most abundant mobile elements in the human genome. Alu insertions have been implicated in several inherited human diseases, including various forms of cancer, as discussed later in this article. Restrotransposon • “Jumping gene” • It is able to copy itself and insert into new locations • Commonly called selfish DNA Action of an Alu • First, the inserted Alu is transcribed into messenger RNA by the cellular RNA polymerase. • Then, the mRNA is converted to a double-stranded DNA molecule by reverse transcriptase. • Finally, the DNA copy of Alu is integrated into a new chromosomal locus at the site of a single- or doublestranded break. Why Study Alus • The study of Alu sequences has also been important in elucidating human population genetics and the evolution of primates, including the evolution of humans. The Alu endonuclease is so-named because it was isolated from Arthrobacter luteus. Alu endonuclease • The recognition sequence of the Alu endonuclease is 5' AG/CT 3'; that is, the enzyme splits the DNA segment between the guanine and cytosine. Alu characteristics • Alu sequences are about 300 base pairs long and are therefore classified as short interspersed elements (SINEs) amongst the class of repetitive DNA elements. • There are over 1 million Alu sequences interspersed throughout the human genome, and it is estimated that about 10% of the mass of the human genome consists of Alu sequences. However less than 0.5% are polymorphic Defective Alus • Alu is a "defective" transposon, since it does not produce reverse transcriptase and also lacks any an enzyme to integrate itself into the chromosome. • However, Alu can obtain these functions from another transposon, called L1, a Long INterspersed Element (LINE). Lines and Alus • Lines are essentially defective retroviruses and retain many virus-like properties. L1 produces a reverse transcriptase with an additional biochemical activity that produces a single-stranded nick in DNA. The nick created by the L1 reverse transcriptase provides an integration site for an Alu copy. In this sense, Alu is a parasite of L1, which, in turn, is a relic of a retrovirus ancestor. Human Alus • Most human Alu sequence insertions can be found in the corresponding positions in the genomes of other primates, but about 2,000 Alu insertions are unique to humans. • 500-2000 Alus are unique to the human genome Alus in Primates • Alu sequences in primates form a fossil record that is relatively easy to decipher because Alu sequence 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 sequences thus reveals details of ancestry because individuals will only share a particular Alu sequence insertion if they have a common ancestor. Alus and disease • Alu insertions are sometimes disruptive and can result in inherited disorders.However, most Alu insertions act like markers since they may segregate with a diseased allele, but the presence of the Alu does not mean that the person 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 [2]. PV92 • Found on Chromosome 16 • Is not associated with any disease Two alleles • One allele is 415 bp in size • The other alleles is 715 bp in size • These can be separated by agarose gel electrophoresis Neurofibromatosus and Alus • An estimated 500-2,000 Alu elements are restricted to the human genome. The vast majority of Alu insertions occur in non-coding regions and are thought to be evolutionarily neutral. However, an Alu insertion in the NF-1 gene is responsible for neurofibromatosis I, Alu insertions in introns of genes for tissue plasminogen activator (TPA) and angiotensin converter enzyme (ACE) are associated with heart disease. Alu insertions are analogous to the insertion of a provirus in viral diseases and certain cancers. Genotypes • This results in three PV92 genotypes (++, +-, or --). The + and - alleles can be separated by size using gel electrophoresis. PV 92 results