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[
Nature,
1998]
In 1983, John Sulston and Alan Coulson began to construct a complete physical map of the genome of the nematode worm Caenorhabditis elegans, and started what became known as the C. elegans Genome Project. At the time, several people wondered why John, who had just described all of the cell divisions in C. elegans (the cell lineage), was interested in this project rather than in a more 'biological' problem. He replied by joking that he had a "weakness for grandiose, meaningless projects". In 1989, as the physical map approached completion, the Genome Project, now including Bob Waterston and his group, embarked on the even more ambitious goal of obtaining the complete genomic sequence
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[
Nature,
1992]
Supporters of large DNA sequencing projects will take heart (and find much to learn) from the report by J. Sulston and colleagues that appears on page 37 of this issue. Sulston et al. describe the first results of the Caenorhabditis elegans genome sequencing project, and have come up with not only hitherto unknown genes but also with fresh and biologically relevant information.
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[
Nat Genet,
1992]
Predicting coding regions from genomic sequence is not entirely accurate, and predicting expression patterns of candidate genes is still a fantasy. Both of these concerns can be addressed by analysing expressed sequences (cDNA) in addition to genomic sequences. The genomic sequencing of the nematode Caenorhabditis elegans has begun; in parallel, several groups (including the genomic sequencing participants) are isolating, sequencing and mapping C. elegans cDNA clones. The first results of this endeavor, including the analysis of about 1,600 independent cDNA sequences, appear in this issue.
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[
Nature,
1994]
On page 32 of this issue, a joint team from the Genome Sequencing Center (St. Louis, USA) and the newly founded Sanger Centre (Hinxton Hall, Cambridge, UK) report a contiguous sequence of over two megabases from chromosome III of the nematode worm, Caenorhabditis elegans. This is the longest contiguous DNA sequence yet determined, and it prompts rumination on how far we have come in the sequencing enterprise, and on how far - and where - we have
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[
Experimental Neurology,
1975]
The precision of neuronal development is programmed genetically. The genes involved must be expressed in an orderly sequence so that their products appear in the right cell at the right time. By studying mutants in which this sequence is altered, it should be possible to dissect the development and recognize the steps controlled by individual genes.
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[
Science,
1998]
The near completion of the sequence of the C. elegans genome should provide researchers with a gold mine of information on topics ranging from evolution to gene
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[
Nature,
2003]
The genome of the microscopic worm Caenorhabditis briggsae has been sequenced, and show some remarkable differences from the genome of the better known - and physically similar - C. elegans.
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[
Nat Cell Biol,
2009]
In Caernorhabditis elegans, homologue pairing is mediated by specialized regions near one end of each chromosome in conjunction with zinc finger (ZnF)-bearing proteins. Families of repeated sequences that are enriched within these regions have now been identified. By recruiting their cognate ZnF-bearing proteins, these regions promote pairing and synapsis.
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[
Nature,
1994]
One of the most satisfying moments in science is when different lines of investigation converge to yield a beautiful picture that opens up new perspectives. This happened last year when expression cloning of an epithelial sodium channel subunit revealed that the DNA encoding it was significantly similar in sequence to that of certain nematode genes, mutations in which lead to insensitivity to touch, neurodegeneration or both. Three reports on pages 463, 467 and 470 of this issue now suggest that at least three distinct subunits are used to build channel complexes in both mammals and the nematode Caenorhabditis elegans. Further, the new work provides insights into the relationship between subunit structure and function, and demonstrates a remarkable degree of functional conservation between vertebrates and invertebrates.
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[
Science,
1991]
The millimeter-long roundworm Caenorhabditis elegans is amassing a sizable research following. As more and more people have joined teh confederation of research efforts loosely called the worm project (see Science, 15 June 1990, p. 1310), the community's biennial meeting has outgrown the traditional watering hole at Cold Spring Harbor. This year, the researchers moved inland for the Eighth International C. elegans Meeting, held June 1-5 on Lake Mendota at the University of Wisconsin, Madison. More than 500 "worm people" turned out to absorb progress reports on the sequencing of the C. elegans genome, the study of its developmental pathways-and some newer topics as well.