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[
Nature,
1992]
Dissecting the sex life of the nematode worm Caenorhabditis elegans has already provided surprises for biologists interested in life-history theory. In a report on page 456 of this issue, Van Voorhies throws another spanner in the works by demonstrating that the costs of producing sperm are not as negligible as we might have thought.
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Science,
2001]
Over the years, a steady stream of structural and regulatory RNAs have been identified. Three papers published in this issue on pages 853, 858, and 862 from the Tuschl, Bartel, and Ambros labs continue the tradition, but now prospecting for tiny RNAs of 22 nucleotides (nt). The chain of reasoning that simultaneously attracted these groups to 22 nt is convoluted but interesting.
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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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[
Science,
2002]
As any homeowner knows, timely maintenance is vital for keeping a building functioning properly after construction is finished. The same is evidently true for the complex architecture of the nervous system - at least in the roundworm. On page 686, neuroscientists Oliver Hobert, Oscar Aurelio, and David Hall describe a new family of proteins that help keep the wiring of the worm's nervous system tangle free.
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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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[
Science,
1997]
In many situations-both normal and pathological-cells die as a result of an orderly, stereotyped cascade of cellular events. On pages 1122, 1126, 1129, and 1132 of this issue, four reports describe the molecular basis of crucial steps in this cascade. The importance of understanding the basis of this programmed cell death was spectacularly demonstrated recently through the rescue with cell death inhibitors of mice undergoing acute liver destruction.
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[
Science,
2002]
How much you eat, not what you eat, seems to make a difference in the aging process. It is well established that reduced calorie consumption robustly extends adult life expectancy in a variety of animal models. Now, on page 120 of this issue, Larsen and Clarke show that diet quality also affects aging. In the worm Caenorhabditis elegans, reduced consumption of coenzyme Q (Q) dramatically extends longevity.
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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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[
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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[
Nature,
1999]
Once, lifespan genetics was largely the domain of theorists, who tried to explain why an organism's genes so cavalierly allow individual somas to die. But a flood of papers on the nematode worm Caenorhabditis elegans has brought the subject into the realm of serious experimental analysis. The latest studies (1,2), including a report by Apfeld and Kenyon (1) on page 804 of this issue, indicate that the nervous system has a key function in regulating lifespan. Perhaps we are, indeed, only as old as we think