July 12, 2017
New biological information
gleaned from the red vizcacha rat, a native species of Argentina, demonstrates
how genomes can rapidly change in size.
Researchers from McMaster
University set out to study this particular species because its genome,
or its complete set of DNA, is the largest of all mammals, and appears to have
increased in size very rapidly.
The rat's genome is roughly
two-and-a-half times as large as the human genome,
including 102 chromosomes versus 46 for humans, and is about twice as large as
one of its closest relatives, the mountain vizcacha rat. The most recent common
ancestor of these species existed only about five million years ago.
"This genomic transformation
is striking because it happened over a very short period of time in
evolutionary terms," says Ben Evans, a biologist at McMaster and lead
author of the new research published in the journal Genome Biology and Evolution.
The mechanism behind that growth
has caused much debate among scientists, some of whom suggest the rapid expansion is
due to whole genome
duplication when its entire set of DNA doubles.
Whole genome duplication is
relatively common in some groups such as plants—it occurred in ancestors of
corn, tobacco, potatoes, and many other flowering plants, say researchers.
Others argue the rat's rapid
genome expansion is due to repetitive DNA—bits of DNA that are repeated many
times in a genome—coupled with chromosomal fissioning, a process where one
chromosome divides into two or more over evolutionary time.
To settle the debate, researchers
compared and contrasted genomic datasets from the red vizcacha rat and the
mountain vizcacha rat.
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