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27 November 2013 12:59 pm ,
Vol. 342 ,
The new head of the National Center for Science Education promises to "fight the good fight" against attacks on...
Analyses of the H7N9 strains isolated from four new cases show that the virus is evolving rapidly, heightening anxiety...
In 2009, Jack Szostak shared a Nobel Prize for his part in discovering the role of telomeres, the end bits of...
Science has exposed a thriving academic black market in China involving shady agencies, corrupt scientists, and...
Paper-selling agencies flourish in the aura of reputable businesses. For some scientists, it may be difficult to tell...
Data collected by satellites and floating probes have chronicled a 2-decade rise in the temperature and thickness of a...
Cholesterol, the artery-clogging molecule that contributes to cardiovascular disease, has another nasty trick up its...
Until recently, the Defense Advanced Research Projects Agency (DARPA) kept its plans for its $70 million portion of the...
- 27 November 2013 12:59 pm , Vol. 342 , #6162
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What Makes Bat Viruses So Deadly?
2 August 2012 5:00 pm
When it comes to harboring viruses deadly to humans, bats are grand champions. The flying mammals are the reservoir for everything from rabies to Ebola. Now, scientists have found a new virus hosted by bats, one that doesn't seem to be able to cause disease in other animals. The discovery may provide clues to what enables some viruses to cause severe disease.
The new Cedar virus is named after the town of Cedar Grove in Queensland, Australia, where it was found in 2009. Australian scientists discovered it in urine from bat colonies while screening for the Hendra virus. Hendra and its close viral cousin Nipah are henipaviruses that kill between 40% and 100% of the animals and humans they infect, making them among the most deadly viruses known. In the laboratory, the team found that Cedar virus could infect ferrets and guinea pigs—the animals produced infection-fighting antibodies to the virus. However, they did not become clinically ill. What's more, there are no recorded cases in humans.
A genetic analysis revealed that the Cedar virus is also a henipavirus—but with a key difference. Unlike other henipaviruses, the Cedar virus does not produce what is called V protein. The V protein gives the Hendra and Nipah viruses the ability to evade the human immune system, making them deadly. By comparing the lethal and benign henipaviruses, "We may gain insights into what makes Hendra so dangerous," says molecular virologist Glenn Marsh of the Australian Animal Health Laboratory in Geelong. Marsh and his colleagues report their findings in a paper appearing online today in PLoS Pathogens.
The team's focus on the V protein is "intriguing, and deserves to be followed up," says Benhur Lee, a microbiologist at the University of California, Los Angeles, David Geffen School of Medicine.
Marsh says his team plans to conduct follow up experiments. "Using genetic engineering it may be possible to modify the virus so it does produce the V protein or alternatively put the gene from Hendra virus into Cedar virus and see if that makes the virus pathogenic." Lee warns, however, that even if the V gene does help make henipaviruses so dangerous, it's probably not the only gene responsible.