Long-awaited bacterial genome debuts.Last week, Frederick R. Blattner of the University of Wisconsin-Madison “University of Wisconsin” redirects here. For other uses, see University of Wisconsin (disambiguation). A public, land-grant institution, UW-Madison offers a wide spectrum of liberal arts studies, professional programs, and student activities. made the announcement that the microbiology community had been anxiously anticipating: He and his colleagues have finished sequencing the genome 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. , the bacterium studied for decades by biologists. "It's the most important bacterium there is," says Eric C. Lander of the Whitehead Institute for Biomedical Research in Cambridge, Mass. "E. coli E. coli: see Escherichia coli. E. coli in full Escherichia coli Species of bacterium that inhabits the stomach and intestines. E. coli can be transmitted by water, milk, food, or flies and other insects. is the bacterium of choice for studying how bacteria work. It's an invaluable sequence." Blattner broke the news publicly at a meeting on small genomes in Hilton Head, S.C. He revealed that the bacterium's genome consists of 4,638,858 nucleotide base pairs, the chemical subunits of DNA DNA: see nucleic acid. DNA or deoxyribonucleic acid One of two types of nucleic acid (the other is RNA); a complex organic compound found in all living cells and many viruses. It is the chemical substance of genes. , and appears to contain 4,300 genes. The exact number of genes remains "fluid" as rigorous analysis of the sequence continues, says Blattner. The first full sequencing of a bacterial genome was announced in 1995, and completion of several other small genomes followed quickly (SN: 6/10/95, p. 367; 5/4/96, p. 278). At the South Carolina South Carolina, state of the SE United States. It is bordered by North Carolina (N), the Atlantic Ocean (SE), and Georgia (SW). Facts and Figures Area, 31,055 sq mi (80,432 sq km). Pop. (2000) 4,012,012, a 15. meeting, scientists from the Institute for Genome Research (TIGR TIGR The Institute for Genomic Research TIGR Treasury Investment Growth Receipt TIGR This Is Getting Ridiculous TIGR Thermally Induced Gallium Removal TIGR TSPI Interface for GPS/RAJPO ) in Rockville, Md., reported that they were putting the final touches on four more sequences: the bacteria that cause syphilis, ulcers, and Lyme disease Lyme disease, a nonfatal bacterial infection that causes symptoms ranging from fever and headache to a painful swelling of the joints. The first American case of Lyme's characteristic rash was documented in 1970 and the disease was first identified in a cluster at , as well as an archaea archaea: see Archaebacteria. archaea A group of prokaryotes whose members differ from bacteria, the most prominent prokaryotes, in certain physical, physiological, and genetic features. The archaea may be aquatic or terrestrial microorganisms. , one of the unusual microorganisms that form the so-called third branch of life (SN: 8/24/96, p. 116). Yet microbiologists have looked forward to having E. coli's genome more than any other. "The main advantage of E. coli is that there's an enormous biology literature on this organism. That means when you have a gene and a gene product, you can fit them into the vast understanding of its biology," says Monica Riley of the Marine Biological Laboratory The Marine Biological Laboratory (MBL) is an international center for research and education in biology and ecology. Founded in 1888, the MBL is the oldest independent marine laboratory in the Americas, taking advantage of a coastal setting in the Cape Cod village of Woods Hole, in Woods Hole, Mass., who called news of the genome's completion "exhilarating." "E. coli also provides a reference point for all the other small genomes being sequenced, because for many of those organisms there's very little known about their biology," she adds. As with the other recently unveiled genomes, E. coli's offers a bounty of novel genes. Almost 2,500 of them bear no strong resemblance to any known genes, leaving scientists with few clues to their roles. "All this is going to take a while to analyze. It's a massive amount of data," says Riley, who maintains an online encyclopedia of E. coli genes. That more than half of the bacterium's genome remains a complete mystery may seem a surprise, considering how extensively investigators have utilized E. coli. Yet petri dishes and test tubes aren't normal environments for the bacterium, so many of its genes may never have made their presence known to scientists. "I think a lot of the genes in E. coli function in niches other than the laboratory," observes Blattner. Blattner's group, which started the E. coli project in 1991, deposited the last few sequences of the genome into public databases on Jan. 16, narrowly beating a Japanese group led by Hirotada Mori of the Nara Institute of Science and Technology. Mori's team, using previously published data from Blattner's group, actually produced a composite sequence of more than one E. coli strain. "It was kind of a race at the finish," admits Blattner. Researchers have just begun to compare the two genomes to see what genes distinguish the strains. Blattner notes that an important project will be to compare these genomes with those of E. coli strains that can cause fatal food poisoning food poisoning, acute illness following the eating of foods contaminated by bacteria, bacterial toxins, natural poisons, or harmful chemical substances. It was once customary to classify all such illnesses as "ptomaine poisoning," but it was later discovered that . With reference genome sequences in hand, it should become relatively easy to make such comparisons, he says. The full E. coli sequence may even help researchers clean up their growing wealth of data on the human genome, adds Blattner. Some studies suggest that because of laboratory contamination, 15 percent of the human gene sequences now in databases contain parts of the E. coli genome. |
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