Worm Offers the First Animal Genome.Pity poor Caenorhabditis briggsae. Like. most nematodes, this worm lives an uncelebrated un·cel·e·brat·ed adj. 1. Not famous or well known; obscure. 2. Not formally or officially honored. life. Three decades ago, however, the millimeter-long worm had its big shot at fame--and came up short. At that time, biologists were picking a worm species on which to concentrate their genetic and developmental studies. Sydney Brenner, who led the effort, had his eye on C. briggsae. But when the dust settled, a relative, Caenorhabditis elegans, had stolen the part. Testifying to its subsequent rise to biological stardom, C. elegans' sinuous sinuous /sin·u·ous/ (sin´u-us) bending in and out; winding. sinuous bending in and out; winding. body graces the cover of the Dec. 11 Science. In the journal, investigators announce that they have essentially finished sequencing the worm's genome, making it the first multicellular organism whose full set of genes is known. That feat thrusts C. elegans and the small, tightly knit community that studies it into the scientific spotlight. "It's fun," says nematode nematode or roundworm Any of more than 15,000 named and many more unnamed species of worms in the class Nematoda (phylum Aschelminthes). Nematodes include plant and animal parasites and free-living forms found in soil, freshwater, saltwater, and even vinegar biologist Gary Ruvkun of the Massachusetts General Hospital Massachusetts General Hospital Health care The major teaching hospital for Harvard Medical School, widely regarded as one of the best health care centers in the world in Boston. "The worm genome, being the first animal genome, becomes the brightest lighthouse for the navigation of all animal genomics." Compared with viruses, bacteria, or yeast--the other organisms whose genomes have been sequenced--the microscopic C. elegans much more closely resembles complex animals, including people. It has a nervous system that includes a simple brain, it digests food, usually a steady diet of bacteria. It even reproduces sexually by fertilizing its eggs with sperm. Easy to cultivate in the lab, the worm has a transparent body that simplifies the study of how a fertilized fer·til·ize v. fer·til·ized, fer·til·iz·ing, fer·til·iz·es v.tr. 1. To cause the fertilization of (an ovum, for example). 2. egg develops into an adult. Biologists have traced back to the egg the history of each of the nearly 1,000 cells in the adult animal. They've even mapped the connections between every nerve cell nerve cell n. 1. See neuron. 2. The body of a neuron without its axon and dendrites. in the worm. The sequencing of C. elegans 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. , led by scientists at the Sanger Centre in Cambridge, England, and the Washington University School of Medicine Washington University School of Medicine, located in St. Louis, Missouri, is one of the most competitive and highly regarded medical schools and biomedical research institutes in the United States. in St. Louis, began about 8 years ago amid skepticism that such a large genome could be deciphered. "There were certainly lots of people who thought we were foolish," says Robert Waterston, who directed the St. Louis effort. The task turned out to be even more complex than expected. Early estimates suggested that C. elegans' six chromosomes had 6,000 or so genes, about half of them essential for life. The completed genome revealed nearly 20,000 genes, however. In comparison, the genome of the yeast Saccharomyces Saccharomyces: see yeast. cerevisiae contains fewer than 7,000 genes (SN: 5/4/96, p. 278). The overlap between the yeast and worm genomes suggests that there's a core of about 3,000 genes that are crucial to the workings of eukaryotic cells. Such cells, which include human cells, package most of their DNA inside a nucleus. The core genes encode proteins that play roles in basic activities such as DNA synthesis, the making of the cell's skeleton, the transport of proteins, and chemical signaling within the cell. Curiously, in the worm, most of the essential genes cluster within the central regions of each chromosome. Noting that chromosome ends may evolve more rapidly, Waterston suggests that "evolution found a mechanism to tuck these genes away in a safe place." In contrast, he says, the chromosome arms may be "gene nurseries, or graveyards, or both." The 17,000 or so additional genes within the worm, compared to yeast, should help biologists explain how multicellular mul·ti·cel·lu·lar adj. Having or consisting of many cells. mul  ti·cel animals differ from single-cell eukaryotes. Many of these genes, for example, encode proteins for cell-cell adhesion and signaling between cells. To identify all the nematode's genes, the researchers had to spell out a DNA sequence DNA sequence Genetics The precise order of bases–A,T,G,C–in a segment of DNA, gene, chromosome, or an entire genome. See Base pair, Base sequence analysis, Chromosome, Gene, Genome. of 97 million bases, the chemical building blocks of DNA. A few small gaps remain, although the scientists are confident they have sequenced more than 99 percent of the worm's genes. Waterston notes that the many short, repeating DNA sequences in C. elegans' genome, and their distribution, made sequencing it even more challenging in some ways than the human genome. The methods developed to analyze the worm genome are already speeding the human genome effort, he says. The nematode's genome itself should offer insight into human biology. "Because C. elegans has so many genes shared with humans ... we can figure out what they're doing in C elegans and apply that to a whole myriad of human genetic issues," says Waterston. Scientists also hope that knowledge of the C. elegans genome will help people deal with worms that cause human illnesses and agricultural problems. "It is important that the C. elegans genome project yields an improved understanding of other nematodes, so as to enable the development of control strategies to alleviate their effects on human populations," Mark Blaxter of the University of Edinburgh (body, education) University of Edinburgh - A university in the centre of Scotland's capital. The University of Edinburgh has been promoting and setting standards in education for over 400 years. says in one of the six articles on the nematode in the Dec. 11 Science. The worm genome marks a new era in evolutionary biology, one in which relationships between animals will be based on genomes rather than on fossils or a single gene. Already, scientists are reconsidering whether nematodes developed before or after the time when arthropods and vertebrates parted ways. What's missing from the C elegans genome may provide as much evolutionary insight as what's there. "What it looks like is that certain things have been deleted in the lineage leading to C. elegans," says Ruvkun. "Having genome sequences for a wide zoo of creatures will be very important." The fruit fly's complete genome is expected next, he notes. Biologists caution that sequencing an animal's genome is but a first step toward a better understanding of the animal. More than half the newfound C. elegans genes have no identified function. "We have to fill in a considerable amount of what the gene products do inside the cells they work in," says Brenner, who now is at the Molecular Sciences Institute The Molecular Sciences Institute is an independent non-profit research laboratory that combines genomic experimentation with computer modeling located in Berkeley, California. Dr. Sydney Brenner founded it in 1996. in Berkeley, Calif. Researchers plan to inactivate in·ac·ti·vate v. 1. To render nonfunctional. 2. To make quiescent. in·ac ti·va every one of the worm's genes in an attempt to understand each one's role in development and adult life. Also on the drawing board are microchips covered with the worm's DNA, which will allow the simultaneous monitoring of the activity, or expression, of all of C. elegans' genes (SN: 3/8/97, p. 144). Biologists also propose to make movies of every gene's activity in the worm's development and life. To do this, they intend to fuse each of its genes to a jellyfish jellyfish, common name for the free-swimming stage (see polyp and medusa), of certain invertebrate animals of the phylum Cnidaria (the coelenterates). The body of a jellyfish is shaped like a bell or umbrella, with a clear, jellylike material filling most of the gene encoding a light-emitting molecule. "We would know exactly when and where each gene was expressed," says Waterston. With all this attention on C. elegans, it's easy to forget C. briggsae. That worm did land a supporting role. Scientists are now sequencing parts of its genome for comparison. Why wasn't it chosen for stardom? It's just not as photogenic photogenic /pho·to·gen·ic/ (-jen´ik) 1. produced by light, as photogenic epilepsy. 2. producing or emitting light. pho·to·gen·ic adj. 1. or easy to work with, notes Brenner. |
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