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One gene change
turns “cheating” microbe to role model
May 17,
2006
Special to World Science
Scientists have found that a one-letter change of DNA can transform a microbe with a habit of cheating its peers into a model citizen that cooperates with its bacterial comrades.
Researchers have long been trying to untangle the evolutionary roots of cooperation and altruism. It’s a confounding problem, since evolutionary theory, at least superficially, suggests cheaters should triumph and do-gooders should die out.
To attack the question, biologists have looked for the simplest possible examples of cases in which cooperation evolves, in order to study what fundamentally drives the process. In seeking out such a model, a scientist can hardly hope for better than one in which cooperation arises from the smallest possible type of genetic change, in
what is perhaps the simplest sort of organism, bacteria.
Gregory Velicer of the Max Planck Institute for Developmental Biology in
Tübingen, Germany, and colleagues reported finding just that in strains of the soil-dwelling bacterium
Myxococcus xanthus.
During hard times, groups of
M. xanthus join forces to form structures called fruiting bodies, in which they pool resources and produce hardy reproductive compartments called spores. Relatively few individuals survive, but
the system lets the group wait out hardship and produce offspring that will emerge later.
The arrangement is open to cheating by strains that don’t bother to form these aggregations, but nonetheless reap the benefits of the nutrients provided. Although “cheater” bacteria
are thought to exist naturally in some species, Velicer’s team in this
study produced freeloaders artificially, by cultivating some bacteria for 1,000 generations
in easy conditions. There they “forgot” how to build the fruiting bodies,
apparently losing the genes that enabled them to do so.
When Velicer and colleagues mixed the cheating and socially responsible strains together under alternating conditions of stress and plenty, they
said, they got a surprise. At first, an ever-growing number of
freeloaders burdened the cooperative system, to the point that they
eventually almost wiped out the population. Yet ultimately, a new, cooperative strain
evolved that produced more surviving cells than either of the two original strains.
The researchers christened the new strain Phoenix, because, as they
explained, it rescued the bacterial population from the ashes of almost certain doom. They
reported their findings in this week’s issue of the research journal Nature.
“The new cooperator evolved from the cheater and not from the original cooperator,” Velicer wrote in an email. But “the new cooperator did not evolve a general ‘niceness’ to everyone. Cells of the new cooperator cooperate fully only with their own kind.”
When the researchers sequenced the genes of the strains, they found that the cheaters’ newfound social conscience was due to a single-letter change in the DNA code.
Kevin Foster of Harvard University, in an accompanying commentary in the journal, wrote that the experiment suggests that in a society disintegrating because of cheaters, evolution will favor mutations that bring back teamwork.
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