From 2009 to 2013, researchers on the French schoonerTara听circled the globe collecting water samples with an audacious goal in mind: to carry out a planet-wide of the diversity of marine plankton that would involve 2,010 locations, 35,000 water samples and extensive genetic analysis back in the lab.
The resulting DNA sequence datasets are colossal and while they have been around for years, they continue to yield new insights into oceanic mysteries.听
Recently, a new type of virus 鈥 dubbed 鈥榤irusvirus' 鈥 was by analyzing the data collected by Tara researchers. It was determined to be ubiquitous in sunlit oceans and to share genetic similarity with both herpesviruses and so-called听giant听viruses.
The researchers, however, could not determine the specific organisms that听mirusviruses infect in nature from environmental DNA sequences alone.听
That's where Dr. John Archibald (shown right), director of 新加坡六合彩开奖直播's Institute for Comparative听Genomics, and colleagues came in.
An important first step
He and his post-doctoral student, Dr. Lucie Gallot-Lavall茅e (seen left), were helping to sequence the genome of an important marine microbe named Aurantiochytrium. Unusual virus-like sequences were identified in the organism鈥檚 genomic data, but they could not make sense of them 鈥 until the new mirusvirus data became available for comparison.
They soon realized that the organism they were studying in the lab has two distinct mirusvirus genomes within it, one of which is integrated directly into one of its chromosomes. This is reminiscent of the biology of herpesviruses and their ability to maintain latent infections in humans and other animals hosts.
"We are the first to identify a natural host for mirusvirus, which paves the way to figuring out how the host and virus interact with one another, and the roles mirusviruses play in marine ecosystems," says Dr. Archibald, who worked on the project with researchers at Stony Brook University in New York and the Joint Genome Institute in California.
鈥淲e don鈥檛 yet know the diversity of microbes that mirusviruses are capable of infecting in nature. But the discovery that听Aurantiochytrium听is a host is an important first step to sorting out the biology of host-virus interactions in the lab.
"In the long run, this will provide a foundation for understanding how mirusviruses impact microbial ecology in the sea."
Trainees working at the electron microscope. (John Archibald image)
Making the invisible visible
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Viruses are the most prevalent biological entities in the world鈥檚 oceans and play essential roles in its ecological and biogeochemical balance. Yet, they are among the least understood components of the marine biosphere.
Determining the complete genetic makeup of Aurantiochytrium sets the stage for future investigations of marine protist genomes 鈥 work that may shed light on the invisible world of marine viruses and the health of oceans worldwide.
"The discovery of one of the viral sequences at one of the chromosome ends offers intriguing insights into the evolutionary ancestry of these elements,鈥 says Joshua Rest, who worked on the project with lead researcher Jackie Collier, both with Stony Brook.
"This revelation also aligns with growing evidence pointing toward mirusviruses' significant influence in marine ecosystems."
The findings are outlined in a paper published in Current Biology.
Recommended listening: Meet Erin Bertrand, marine biogeochemist on the Sciographies podcast