In case you missed it. ~ Janice
Science News
<http://www.sciencenews.org/articles/20070901/toc.asp>Week of Sept.
1, 2007; Vol. 172, No. 9 , p. 131
http://www.sciencenews.org/articles/20070901/fob1.asp
Share Alike: Genes from bacteria found in animals
Patrick Barry
Some insects and roundworms pick up DNA from bacteria living within
their cells, new research shows.
The DNA transfer occurs in the animals' egg cells, so the genetic
modification passes between generations. The mechanism therefore
provides an alternative to mutation of existing DNA as a way for the
species to acquire new genetic traits.
Gene swapping is ubiquitous among bacteria and other single-celled
organisms. Even plants and fungi are known to occasionally adopt a
piece of foreign DNA. But scientists thought
that multicellular animals picked up genes from bacteria only rarely.
"Our data are indicating that [DNA transfer] is going on all the
time," says John H. Werren of the University of Rochester in New
York, who led the research team.
The discovery challenges the prevailing view of animal evolution, in
which genetic information is passed exclusively from parents to
offspring. The transfer of DNA from bacteria means that an individual
could acquire and pass on genes that it had not inherited.
"We're sort of on the edge of a transformation in the field" of
animal evolution, comments Laura A. Katz of Smith College in
Northampton, Mass. "These sorts of data allow us to redefine
the field to capture this other process going on."
Werren's team looked at several species of insects and roundworms
infected by a parasitic bacterium called Wolbachia pipientis, which
afflicts about 20 percent of insect species as well as many other
invertebrates. The bacterium lives inside the animals' cells,
including their egg cells, giving it ready access to the chromosomes
that are passed on to the animals'
offspring.
"I think that physical access is the key to allowing this [DNA
transfer] to happen," Werren says. The way in which animals' bodies
insulate their eggs and sperm from foreign bacteria is
the main barrier to heritable-DNA transfer in animals, he says.
The researchers compared the genetic code of the bacterium with the
code of 11 other species: four roundworms, four fruit flies, and
three wasps. The team found that all but three of the
fruit fly species had segments of the bacterium's genetic code
embedded in their DNA. The
<http://dx.doi.org/10.1126/science.1142490>report appears online and
in an upcoming Science.
Some of this transferred DNA is active in the host species' cells,
the researchers found, but they didn't determine whether the genes
serve a biological function in the host.
The team also scanned an archive of published genomes for 21 other
invertebrate species and found bacterial genes in nine of them.
Such bacterial genetic code is routinely ignored during the
sequencing of animals' genomes because most scientists have assumed
that the foreign DNA is a sign of contamination,
Werren says. However, the new research rules out the possibility of
contamination, Katz says. "I think it's a really beautifully done,
elegant study."
Julie C. Dunning Hotopp, a member of the research team and a
scientist at the J. Craig Venter Institute in Rockville, Md., says
that the mechanism by which DNA leaves the bacteria and becomes
inserted into the host species' chromosomes remains uncertain.
While in-cell parasites such as W. pipientis are common among
invertebrates, none is known to infect people or other mammals, Werren says.
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Received on Thu Sep 13 09:34:10 2007
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