Friday, July 19, 2013

isn't smegma believed to cause cervical cancer?


thescientist | In what appears to be a novel form of bacterial gene transfer, or conjugation, the microbe Mycobacterium smegmatis can share multiple segments of DNA at once to fellow members of its species, according to a study published today (July 9) in PLOS Biology. The result: the generation of genetic diversity at a pace once believed to be reserved for sexual organisms.

“It is a very nice study providing clear evidence that, in Mycobacterium smegmatis at least, conjugation underlies much of species diversity,” said Richard Meyer, who studies conjugation at The University of Texas at Austin, in an email to The Scientist.

Traditionally, transfer of genetic material through conjugation has been considered an incremental process. Plasmids mediate the transfer of short segments of DNA, one at a time, between pairs of touching bacterial cells, often conferring such traits as antibiotic resistance.

But M. smegmatis, a harmless bacterium related to the pathogen M. tuberculosis, appears to use a more extensive method of gene shuffling, endowing each recipient cell with a different combination of new genes. The researchers dubbed this form of conjugation “distributive conjugal transfer.” “We can generate a million [hybrid bacteria] overnight, and each of those million will be different than each other,” said coauthor Todd Gray, a geneticist at the New York State Department of Health’s Wadsworth Center.

Coauthor Keith Derbyshire, also a geneticist at the Wadsworth Center, and colleagues had previously published data indicating that M. smegmatis used a novel form of conjugation, but the new study confirms and expands on their suspicions using genetic data. The researchers compared the whole genome sequences of donor and recipient bacteria before and after the massive gene transfers.

The researchers found that, after the transfers, up to a quarter of the recipient bacteria’s genomes were made up of donated DNA, scattered through the chromosomes in segments of varying lengths.

According to the authors, the diversity resulting from distributive conjugal transfer approaches that achieved by meiosis, the process of cell division that underlies sexual reproduction. “The progeny were like meiotic blends,” said Derbyshire. “The genomes are totally mosaic.”

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