Stressed bacteria spawn elegant colonies.Colonies of bacteria under stress form striking patterns. Put them on an inhospitable surface and a lean diet, and they spread out into elaborate networks, presumably pre·sum·a·ble adj. That can be presumed or taken for granted; reasonable as a supposition: presumable causes of the disaster. in arrangements that enhance their survival. But exactly how and why bacteria make these extraordinary patterns remains unexplained. How do they signal each other? By what mechanism do they respond to attractants or repellents? In what way does clumping together in rings help them use available resources more efficiently? Lev lev-, pref See levo-. Tsimring and Herbert Levine Herbert Levine (?-1991) was an American fashion executive active from the 1940s through the 1970s. Together with his wife fashion designer Beth Levine he led the best-known fashion accessory label serving the United States First Ladies Jackie Kennedy and Pat Nixon in the 1960s and , physicists at the University of California, San Diego San Diego (săn dēā`gō), city (1990 pop. 1,110,549), seat of San Diego co., S Calif., on San Diego Bay; inc. 1850. San Diego includes the unincorporated communities of La Jolla and Spring Valley. Coronado is across the bay. , and their colleagues propose a model to explain this bacterial behavior. By means of computer graphics, their model--based on diffusion processes in nonliving chemical systems--produces patterns quite similar to those observed in live bacteria. The physicists detail their results in the Aug. 28 Physical Review Letters Physical Review Letters is one of the most prestigious journals in physics.[1] Since 1958, it has been published by the American Physical Society as an outgrowth of The Physical Review. . When deprived of nutrients, colonies of Escherichia coli Escherichia coli (ĕsh'ərĭk`ēə kō`lī), common bacterium that normally inhabits the intestinal tracts of humans and animals, but can cause infection in other parts of the body, especially the urinary tract. spawn stripes and rings as the microorganisms react to each other and to their environment. Presumably, they move toward food and neighboring bacteria and away from biological waste, yielding regular spacings, the researchers believe. To simulate this phenomenon, the physicists invoke a chemical diffusion model first proposed by mathematician Alan Turing (person) Alan Turing - Alan M. Turing, 1912-06-22/3? - 1954-06-07. A British mathematician, inventor of the Turing Machine. Turing also proposed the Turing test. Turing's work was fundamental in the theoretical foundations of computer science. in the 1950s. Applied to bacteria, the model emphasizes feedback mechanisms, based on the interplay of chemical attractants and repellents. The fact that the computer simulations mimic patterns observed in live colonies of bacteria leads the physicists to conclude that "generic mechanisms" may be at work. "Not much is known about how cells communicate with each other chemically," Levine says. "So in these biological structures, we're using reverse logic. We're working backwards from observed patterns in living systems to those seen in nonliving systems in an effort to determine what physical mechanisms must be at work." But do these models actually represent bacterial biochemistry? "It's hard to say," says Howard C. Berg, a biologist at Harvard University who, with biologist Elena O. Budrene, first reported such bacterial patterns in 1991 (SN: 3/4/95, p.136). "It's definitely worthwhile to look at these patterns from a chemical systems point of view. But whether this model has anything to do with how cells organize and develop themselves is still a matter in question. "It's possible that they're right," Berg continues. "But we don't know Don't know (DK, DKed) "Don't know the trade." A Street expression used whenever one party lacks knowledge of a trade or receives conflicting instructions from the other party. yet. We have to do more experiments in the laboratory with bacteria to test their hypothesis." |
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