The tardigrade genome has been sequenced, and it has the most foreign DNA of any animal
Water
bears just got even weirder.
FIONA MACDONALD
Scientists
have sequenced the entire genome of the tardigrade, AKA the water
bear, for the first time. And it turns out that this weird little creature has
the most foreign genes of any animal studied so far – or to put it another way,
roughly one-sixth of the tardigrade's genome was stolen from other species. We
have to admit, we're kinda not surprised.
A
little background here for those who aren’t familiar with the strangeness that
is the tardigrade – the microscopic water creature grows to just over 1 mm on
average, and is the only animal that can survive in the harsh environment of
space. It can also withstand temperatures from just above
absolute zero to well
above the boiling point of water, can cope with ridiculous amounts of pressure
and radiation, and can live for more than 10 years without food or water.
Basically, it's nearly impossible to kill, and now scientists have shown that
its DNA is just as bizarre as it is.
So
what's foreign DNA and why does it matter that tardigrades have so much of it?
The term refers to genes that have come from another organism via a process
known as horizontal gene
transfer, as opposed to being passed down through traditional
reproduction.
Horizontal
gene transfer occurs in humans and other animals occasionally, usually as
a result of gene swapping with viruses, but to put it into perspective, most
animals have less than 1 percent of their genome made up of foreign
DNA. Before this, the rotifer – another microscopic water creature – was
believed to have the most foreign genes of any animal, with 8 or 9 percent.
But
the new research has shown that approximately 6,000 of the tardigrade’s genes
come from foreign species, which equates to around 17.5 percent.
“We
had no idea that an animal genome could be composed of so much foreign DNA,” said study
co-author Bob Goldstein, from the University of North Carolina Chapel Hill . “We knew many animals acquire
foreign genes, but we had no idea that it happens to this degree.”
So
where is the tardigrade getting all its genes from? The foreign DNA comes primarily
from bacteria, but also from plants, fungi, and Archaea. And it’s this
incredible variety of genes that researchers suggest has allowed the water bear
to survive in such extreme conditions.
“Animals
that can survive extreme stresses may be particularly prone to acquiring
foreign genes – and bacterial genes might be better able to withstand stresses
than animal ones,” said one of the
researchers, Thomas Boothby.
The
team hasn't investigated exactly how this gene-stealing is happening just yet,
but they propose that it's a result of one of the tardigrade's other crazy
survival mechanisms – the ability to dry out until its body is less than 3
percent water, and then come bounce back once they're rehydrated.
When this desiccation happens, scientists know that their DNA breaks down into tiny pieces. They also know that when their cells rehydrate, there's a point in time when the cell nucleus is leaky, allowing DNA and other molecules to pass through. That means that while the tardigrade is quickly patching up its own genome, it may accidentally be stitching in another organism's genes.
When this desiccation happens, scientists know that their DNA breaks down into tiny pieces. They also know that when their cells rehydrate, there's a point in time when the cell nucleus is leaky, allowing DNA and other molecules to pass through. That means that while the tardigrade is quickly patching up its own genome, it may accidentally be stitching in another organism's genes.
This
would be a random process, but the genes that get passed down would be those
that help the animals survive. Further research now needs to be done into
exactly how tardigrades are obtaining this foreign DNA, and how often it’s
happening. But what’s really exciting is that it provides new insight into
exactly how life evolves.
“We
think of the tree of life, with genetic material passing vertically from mom
and dad. But with horizontal gene transfer becoming more widely accepted and
more well known, at least in certain organisms, it is beginning to change the
way we think about evolution and inheritance of genetic material,” said Boothby. “Instead
of thinking of the tree of life, we can think about the web of life and genetic
material crossing from branch to branch ... it’s exciting. We are beginning to
adjust our understanding of how evolution works.”
The
research, which has been published in PNAS, could
also provide some insight into useful genes we could use in medicine and drug
development. So long live the water bear, in all its weirdness.
Read
these next:
·
New water bear species
discovered in Antarctica
·
The DNA of a boy
sacrificed by the Inca suggests a lost, ancient lineage
·
Ancient DNA
reveals how agriculture changed our height, digestion, and skin colour
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