The modern African cheetah (Acinonyx jubatus) is found across eastern and southern Africa, but it is highly endangered because of their small free ranging population and inbreeding.
Researchers from St Petersburg State University in Russia, in collaboration with Beijing Genomics Institute (BGI) in China and Cheetah Conservation Fund (CCF) in Namibia, sequenced the genome from a male Namibian cheetah, called 'Chewbaaka', and six other wild cheetahs from Tanzania and Namibia.
A total of 18 cheetah genes showed damaging mutations and one gene in particular, AKAP4, showed a large number of mutations, which could harm sperm development and may explain why cheetah have a large proportion of defective sperm, and hence their low reproductive success.
The cheetah is descended from a relative of American pumas and their fossil record extends across the Americas, Europe and Asia.
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The species has suffered two population bottlenecks - an event whereby the population is rapidly reduced due to environmental factors, researchers said.
This migration was punctuated with dwindling populations and limited gene flow due to the individuals' own vast territory boundaries, measuring 300-800 square miles, thereby increasing incestuous mating.
The second bottleneck around 10-12,000 years ago, further reduced numbers, leading to further loss of endemic variability observed in modern cheetahs.
This is because cheetahs disappeared from North America, when the last glacial retreat caused an abrupt extinction resulting in the loss of many large mammals from the region, including cheetahs and pumas.
The variation is so limited that it is far below that observed in inbred dogs and cats. Tests carried out by the researchers show that the cheetah has lost 90-99 per cent of the genetic variation typically seen in outbred mammals.
The study was published in the journal Genome Biology.