Space travel causes gene change
Report after Nasa studies twin astronauts
Washington, Jan. 28: Space travel may cause changes in gene expression and other biological markers in astronauts, a Nasa study of twins has found.
Scientists studied the genetic differences between astronaut Scott Kelly, who spent nearly a year in space, and his identical twin Mark.
Measurements taken before, during and after Scott Kelly’s mission showed changes in gene expression, DNA methylation and other biological markers that are likely to be attributable to his time in orbit, the study found.
From the lengths of the twins’ chromosomes to the microbiomes in their guts, “almost everyone is reporting that we see differences,” said Christopher Mason, a geneticist at Weill Cornell Medicine in New York City.
The challenge now is to untangle how many of the observed changes are specific to the physical demands of spaceflight — and how many might be simply due to natural variations.
Scott Kelly spent 340 days in space in 2015-16, giving him a lifetime total of 520 days. Mark Kelly, who is also an astronaut, had previously flown in space for a total of 54 days over four space-shuttle missions between 2001 and 2011.
Since the two men have almost identical genomes and similar life experiences, Nasa arranged to have blood and other biological samples taken from them to try and observe biological changes brought about by long-duration spaceflight.
Studies of the twins’ telomeres, the caps on the ends of their chromosomes, showed that during spaceflight Scott’s telomeres grew to be longer than his brother’s.