In a galaxy far, far away, aliens may have eight-letter DNA – like the kind NASA-backed boffins just crafted
In a galaxy far, far away, aliens may have eight-letter DNA – like
the kind NASA-backed boffins just crafted
This may be proof that ET doesn't
need the same DNA chemicals we need
Scientists say they have crafted a
semi-synthetic DNA and RNA molecular system that is able to usefully store
genetic information. It's hoped that alien lifeforms exist out there with
similar exotic biological structures.
In
other words, life beyond our planet could be using something like these
engineered DNA molecules, and that what we know as DNA is not the be all and end
all of life. There are other chemicals for us to look out for and detect that
may point to alien life.
The
iconic double-helix-shaped DNA is an essential building block for life on
Earth, and is, simply put, transcribed to RNA to ultimately direct the
production of proteins and kick off processes that are necessary for cellular
function.
The
biologists also had to adapt the reader-transcriber (the polymerase) enzyme to
be able to transcribe the DNA to RNA.
Unlike
traditional DNA, this new semi-synthetic system is made up of eight key
ingredients instead of the usual four: adenine, guanine, thymine and cytosine.
The additional four molecules have incredibly long complex chemical names to
spell out here, but have similar structures to the classical nucleotides found
in traditional DNA.
"The
discovery that DNA with eight nucleotide letters is suitable for storing and
transmitting information is a breakthrough in our knowledge of the range of
possibilities necessary for life," said Andrew Serazin, president of
Templeton World Charity Foundation, an organisation focused on funding
scientific advances. The researchers have called their genetic system
"hachimoji", meaning eight characters or letters in Japanese. The
results were published just
before the weekend in Science.
"By
carefully analyzing the roles of shape, size and structure in hachimoji DNA,
this work expands our understanding of the types of molecules that might store
information in extraterrestrial life on alien worlds," added Steve
Benner, co-author of the paper and a fellow at the Foundation for Applied
Molecular Evolution in Florida.
The
project, funded by NASA, hopes to prove that if other types of
non-traditional-DNA-based life could exist on other planets or moons of the
Solar System, and presumably beyond, it could mean there are organisms
flourishing in extreme environments, such as on Mars or the gas giant moons
Europa and Enceladus.
"Life
detection is an increasingly important goal of NASA's planetary science
missions, and this new work will help us to develop effective instruments and
experiments that will expand the scope of what we look for," said Lori
Glaze, acting director of NASA's Planetary Science Division.
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