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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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[
Nature,
1987]
The molecular mechanisms responsible for development of metazoan pattern and form are largely unknown. Embryos have been described and experimentally manipulated for more than a century, but only in the past few years have some of the genes and proteins that influence, and perhaps govern, development been isolated and scrutinized. These genes, cloned chiefly from the fruitfly Drosophila melanogaster, constitute the 'nuts-and-bolts' of developmental decision-making. The challenge to developmental biologists today is to understand the functions of these genes and to describe them in biochemical terms. Results reported at a recent meeting indicate that some elucidation of development at a molecular level will emerge from investigations of the nematode worm Caenorhabditis elegans.
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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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[
Trends Cell Biol,
2001]
In vertebrates and higher eukaryotes such as Caenorhabditis elegans and Drosophila melanogaster, microtubules are in each cell primarily nucleated and organized by the centrosome, which has as its center a pair of centrioles. In recent years, it has become clear that bipolar spindle assembly is possible without centrosomes, and it appears that the centrosome might be required for proper spindle positioning rather than for spindle assembly.
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[
Nature,
1993]
Myth and literature have given human immortality mixed reviews. There is, nonetheless, fairly general agreement that intimations of mortality, in the form of ageing or senescence, are regrettable and should be postponed as long as possible. On page 461 of this issue, Kenyon and co-workers report a mutation of the nematode worm Caenorahbditis elegans that more than doubles its healthy and fertile adult lifespan.
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[
New York Times,
1991]
Through a microscope, they look like tiny crystal serpents, curving and slithering across the dish with an almost opiated languor, doubling back on themselves as though discovering their tails for the first time, or bumping up against a neighbor clumsily and then slowly recoiling. Beneath their translucent skin the pulsing muscle cells and nerve fibers are clearly visible, a sight so strange and so exquisite that it is hard to believe these creatures are common roundworms, found in gardens and compost heaps everywhere. And it is harder still to believe that such slippery squiggles of life are fast changing the face of fundamental biology.
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[
Nature,
2002]
Behavioral ecologists have shown that many animals form social groups in conditions. Neurobiological evidence for this behaviour has now been discovered in the nematode worm, Caenorhabditis elegans. On pages 899 and 925 of this issue, de Bono et al. and Coates and de Bono present striking results on the genetic, molecular and neural mechanisms underlying nematode social feeding. These discoveries provide tantalizing insights into the effects of stress in social groupings.
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[
Nat Genet,
2007]
Two new studies explore the genetic mechanisms connecting aging and tumor growth in Caenorhabditis elegans. This work should provide a basis to consider ways to prevent and treat age-dependent cancers.
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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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[
Science,
1985]
The biologists who investigate nature's deepest and longest-running mystery often use the term fate map to describe the startling transformations that lie in store for the fertilized egg. It is one of the more venerable terms in embryology, and one of the most appropriate, too, for destiny and geography indeed intersect within the magnificent speck of DNA and cytoplasm that is an egg on the edge of becoming a organism. In this one cell, the entire genetic bill of lading for an animal, be it fruit fly or human, is stored, waiting to unfold with miraculous precision. It is that process of life unfurling-of cells becoming brain or backbone, of genes selectively flashing on and herding cells toward their certain fates, of tissues aggregating and differentiating toward ever more specific tasks-that both confounds and as surely delights developmental biologists.