(click on pic to see a full-sized image)
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Thursday, September 16, 2010
The goal in this lab to introduce students to the Polymerase Chain Reaction (PCR), the most popular in vitro technique to make copies of target DNA fragments. We extracted DNA from our cheek cells and used it to set up basic PCRs.
Our target is the PV92 locus, located on chromosome 16. This locus may, or may not, have an insertion of an Alu element. Alu elements are a family of short interspersed repetitive elements (SINEs) that have mobilized throughout primate genomes for the last 65 My, by retrotransposition.
Our target is the PV92 locus, located on chromosome 16. This locus may, or may not, have an insertion of an Alu element. Alu elements are a family of short interspersed repetitive elements (SINEs) that have mobilized throughout primate genomes for the last 65 My, by retrotransposition.
In this exercise you will find out if you have the PC92 Alu insertion in one, both, or none of your chromosomes.
There are more than 500,000 Alu elements per haploid genome in humans (about 5% of our genome). Depending on the insertion point they may be associated with some genetic diseases (e.g.some cases of hemophilia, familial hypercholesterolemia, severe combined immune deficiency, or neurofibromatosis type 1). But in most cases it has no effect on the individual's health.
Some Alu insertions are very recent and polymorphic. The most recent are human specific (HS) and such is the case of the PV92 insertion. Because the PV92 insertion is HS, polymorphic, neutral (invisible for natural selection), and easy to detect, it has been widely used in human genetic population studies, and it has been one of the markers used to support the out-of-Africa hypothesis.
So, do you have 0, 1, or 2 PV92 Alu insertions in your genome?
The following picture illustrates the possible outcomes of your PCRs:
There are more than 500,000 Alu elements per haploid genome in humans (about 5% of our genome). Depending on the insertion point they may be associated with some genetic diseases (e.g.some cases of hemophilia, familial hypercholesterolemia, severe combined immune deficiency, or neurofibromatosis type 1). But in most cases it has no effect on the individual's health.
Some Alu insertions are very recent and polymorphic. The most recent are human specific (HS) and such is the case of the PV92 insertion. Because the PV92 insertion is HS, polymorphic, neutral (invisible for natural selection), and easy to detect, it has been widely used in human genetic population studies, and it has been one of the markers used to support the out-of-Africa hypothesis.
So, do you have 0, 1, or 2 PV92 Alu insertions in your genome?
The following picture illustrates the possible outcomes of your PCRs:
The sample on lane 1 belongs to an individual with no PV92 Alu insertion, lane 2 to an individual with insertions in both chromosomes, and lane 3 to an individual with an insertion in one chromosome.
What is your genotype like?
In the mean time enjoy The PCR Song! Students in previous quarters have found this song useful to remember the sequence of steps in PCR... (Warning: Cheesy!)
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