Travelling
into the space is dangerous for a lot of very obvious reasons — traveling off
of Earth on a rocket has its risks, after all — but even when everything
according to the plan well it seems that a brief stay in space has the
potential to alter a person’s very DNA.
That’s the
takeaway from a long-term NASA study that used astronaut Scott Kelly and his
twin brother Mark as guinea pigs to see how living in space can affect the most
basic building blocks of life.
Scott Kelly
has spent over 500 days in space overall, but a huge chunk of that came with a
single mission which had him stay aboard the International Space Station for
342 days. His brother Mark, who is a retired astronaut, is his identical twin
and has the same DNA. This provided a never-before-possible opportunity for
NASA to study how long-term space travel affects the human body and the genes
that make us who we are. As it turns out, space really does change us, and upon
Scott’s return to Earth it was discovered that his DNA has significantly
changed.
“Scott’s telomeres (endcaps of chromosomes that shorten as one ages) actually became significantly longer in space,” NASA explains. “While this finding was presented in 2017, the team verified this unexpected change with multiple assays and genomics testing. Additionally, a new finding is that the majority of those telomeres shortened within two days of Scott’s return to Earth.”
Most of
Scott’s genes did indeed return to normal after a brief time back here on
Earth, but not all of them. According to researchers, around 7% of Scott
Kelly’s genes have shown long-lasting changes when compared to his brother’s.
Those changes have remained for the two years since he returned to solid
ground, which surprised even him.
“I did read in the newspaper the other day that 7 percent of my DNA had changed permanently,” Kelly said in a recent interview. “And I’m reading that, I’m like, ‘Huh, well that’s weird.’”
The “Twins
Study” was a preliminary step in the lead-up to an eventual long-haul manned
mission to Mars. NASA has some vague plans in place for such a mission and is
currently working on the technology to actually make that happen, but the human
element cannot be overlooked. A Mars mission would last as long as three years,
which would obviously be the longest stretch that any human has been away from
Earth. Can the human body handle such a journey? We might not have to wait very
long to find out, as some are expecting the first manned Mars trip to happen as
soon as the 2030s.
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