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An inversion is a chromosome rearrangement in which a segment of a chromosome becomes inverted within its original position. An inversion occurs when a chromosome undergoes a two breaks within the chromosomal arm, and the segment between the two breaks inserts itself in the opposite direction in the same chromosome arm.
Biased gene conversion (BGC) occurs when one allele has a higher probability of being the donor than the other in a gene conversion event. For example, when a T:G mismatch occurs, it would be more or less likely to be corrected to a C:G pair than a T:A pair. This gives that allele a higher probability of transmission to the next generation.
The classical example is the Drosophila w m4 (speak white-mottled-4) translocation. In this mutation , an inversion on the X chromosome placed the white gene next to pericentric heterochromatin, or a sequence of repeats that becomes heterochromatic. [ 3 ]
The products of this mechanism from the sequence repeats is depicted in Figure 2. A study was done on the olfactory receptor gene clusters where they questioned if there was an association between normal rearrangement of 8p and the repeated inverted sequences. The researchers observed that the rearrangement of chromosomes was actually caused by ...
Position effect is the effect on the expression of a gene when its location in a chromosome is changed, often by translocation. This has been well described in Drosophila with respect to eye color and is known as position effect variegation (PEV). [1] The phenotype is well characterised by unstable expression of a gene that results in the red ...
When a gene is inactivated by insertion of a transposon (or other mechanism), that gene is “knocked out”. Knockout mice and knockout rats have been made with the SB system. [24] [25] Figure 4 illustrates these two uses of SB transposons. For either gene delivery or gene disruption, SB transposons combine the advantages of viruses and naked DNA.
The mechanisms involved include gene conversion, unequal crossing-over, transposition, slippage replication and RNA-mediated exchanges. Because mutations changing the sequence of one copy are less common than deletions , duplications and replacement of one copy by another, the copies gradually come to resemble each other much more than they ...
The first fusion gene [1] was described in cancer cells in the early 1980s. The finding was based on the discovery in 1960 by Peter Nowell and David Hungerford in Philadelphia of a small abnormal marker chromosome in patients with chronic myeloid leukemia—the first consistent chromosome abnormality detected in a human malignancy, later designated the Philadelphia chromosome. [3]