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A newly discovered virus seems to lack the proteins needed to replicate
itself. Yet somehow, it's thriving, according to a new study.
To find this mysterious virus, a group of researchers in Japan have spent
nearly a decade analyzing pig and cow poop for novel viruses. These dirty
environments, where lots of animals constantly interact, are a good place for
viruses to quickly evolve, according to a statement from Tokyo University of
Agriculture and Technology in Japan.
The researchers have found on farms several novel viruses that have
recombined  meaning that two or more viruses have swapped genetic material.
But they were particularly intrigued when they found a new type of enterovirus
G (EV-G), which is composed of a single strand of genetic material. This new
virus was formed from an enterovirus G and another type, called a torovirus.
Mysteriously, the newly discovered microbe lacks a feature present in all
other known viruses  so called “structural proteins†that help the parasite
attach to and enter host cells, then replicate. Though the new enterovirus
lacks the genes that code for these structural proteins, it does have a couple
of "unknown" genes, according to the researchers.
"This is very strange," senior author Tetsuya Mizutani, the
director at the Research and Education Center for Prevention of Global
Infectious Disease of Animal (TUAT) in Japan, told Live Science in an email.
Without structural proteins, the virus shouldn't be able to infect other
cells, he added.
Yet, three years later, the researchers found the same virus in pig poop on
the same farm, suggesting that the virus did replicate in pigs. The scientists
analyzed poop they gathered from other farms and also found this virus present.
So, how does the virus, which they named type 2 EV-G, survive? Mizutani and
his team hypothesize that the virus borrows structural proteins from other
nearby viruses, called "helper viruses."
That’s not totally unheard of. Hepatitis D virus needs the hepatitis B
virus to replicate in the body, though it does have its own structural
proteins, said Dr. Amesh Adalja, an infectious disease specialist and a senior
scholar at the Johns Hopkins Center for Health Security in Baltimore, who
wasn't involved with the study.
"Understanding how viral recombination occurs and how viruses develop
dependencies on helper viruses is an important key to unlocking some of the
mysteries of virus evolution," Adalja told Live Science.
There are now over 30 virus families in the world, which likely evolved
from one or a few common ancestors, Mizutani said. It's clear that they didn't
all evolve from random mutations in their genomes, but rather combined with
each other, just as the ancestors of type 2 EV-G did, he added. Now, Mizutani
and his team hope to figure out which helper viruses enable 2 EV-G to survive,
and exactly what the unknown genes do.
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