Bacteria Use Viruses To Differentiate Themselves From Their Competitors, Study Finds (upi.com) 25
schwit1 shares a report from UPI: Normally, bacteria and viruses are enemies, but new research suggests a viral infection can offer bacteria some benefits -- chiefly, the ability to distinguish friend from foe. Scientists discovered the phenomenon after observing a stark demarcation line between two strains of the bacteria Escherichia coli K-12, but no such divide between identical clones. The related rivals steered clear of one another, while the identical strains swam toward one another. To find out why, scientists surveyed 4,296 single-gene knockouts in the genome of Escherichia coli K-12. Researchers determined only one mutation caused the demarcation line to disappear. The mutation involved a gene that is used in viral replication.
According to their analysis, the virus-related proteins produced by the gene allow for bacterial self-recognition. Scientists were also able erase the demarcation line by silencing the bacteriophage genomes that have weaved their way into the bacteria's genome. These leftover viral genes don't produce active phage particles, nor do they rupture host cells. When scientists exposed bacteria to a related virus, the old viral genes were activated and began producing phage particles for the new virus. Experiments showed the virus doesn't attack its host cells. Instead, the virus attacks other bacteria cells that don't carry the virus. The host helps the virus reproduce, and the virus takes out the bacteria's competitors. The new study has been published in the journal Cell Reports.
According to their analysis, the virus-related proteins produced by the gene allow for bacterial self-recognition. Scientists were also able erase the demarcation line by silencing the bacteriophage genomes that have weaved their way into the bacteria's genome. These leftover viral genes don't produce active phage particles, nor do they rupture host cells. When scientists exposed bacteria to a related virus, the old viral genes were activated and began producing phage particles for the new virus. Experiments showed the virus doesn't attack its host cells. Instead, the virus attacks other bacteria cells that don't carry the virus. The host helps the virus reproduce, and the virus takes out the bacteria's competitors. The new study has been published in the journal Cell Reports.
Strange Bedfellows (Score:1)
How does the virus "know" not to attack its host? Does the bacterium somehow alter the phage gene to render it harmless to itself, yet lethal to its "enemies"?
Is this random evolution at work, or some kind of goal-directed "design">
Measles (Score:2)
The host helps the virus reproduce, and the virus takes out the bacteria's competitors.
In other news, bacteria have been imaged passing microscopic blankets among their colonies, for purposes unknown.
Complex parasite behavior found at all scales (Score:4, Informative)
Now we seem to be finding complex host/parasite behavior at all scales of life. In addition to this story, there's this one about the birds, snails and fish: (https://www.newscientist.com/article/2129880-parasite-living-inside-fish-eyeball-controls-its-behaviour/). People are known to be affected by toxoplasmosis (https://www.ncbi.nlm.nih.gov/pubmed/20608477), and at the highest level, human governance could be impacted by Treponema pallidum! (https://en.wikipedia.org/wiki/Syphilis)
You Gotta have a Gimmick (Score:2)
It’s interesting to see that as human microbiomes become more important, we’re discovering that bacteria have microbiomes of their own.
So (Score:3)
(ignore) (Score:2)
no, not FWB (Score:2)