The most common organism in the oceans, and possibly on the entire planet, is a family of single-celled marine bacteria called SAR11. These drifting organisms look like tiny jelly beans and have evolved to outcompete other bacteria for scarce resources in the oceans.
We now know that this group of organisms thrives despite — or perhaps because of — the ability to host viruses in their DNA. A study published in May in Nature Microbiology could lead to new understanding of viral survival strategies.
University of Washington oceanographers discovered that the bacteria that dominate seawater, known as Pelagibacter or SAR11, hosts a unique virus. The virus is of a type that spends most of its time dormant in the host’s DNA but occasionally erupts to infect other cells, potentially carrying some of its host’s genetic material along with it.
“Many bacteria have viruses that exist in their genomes. But people had not found them in the ocean’s most abundant organisms,” said co-lead author Robert Morris, a UW associate professor of oceanography. “We suspect it’s probably common, or more common than we thought — we just had never seen it.”
This virus’ two-pronged survival strategy differs from similar ones found in other organisms. The virus lurks in the host’s DNA and gets copied as cells divide, but for reasons still poorly understood, it also replicates and is released from other cells.
Co-lead author Kelsy Cain collected samples off the coast of Oregon during a July 2017 research cruise. She diluted the seawater several times and then used a sulfur-containing substance to grow the samples in the lab — a difficult process, for organisms that prefer to exist in seawater.
“When we went to grow the NP2 control culture, lo and behold, there was another virus. It was surprising how you couldn’t get away from a virus,” said Cain, who graduated in 2019 with a UW bachelor’s in oceanography and now works in a UW research lab.
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