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[
Nat Genet,
2007]
In the nematode Caenorhabditis elegans, dosage compensation is mediated by a subtle twofold downregulation of both X chromosomes. A new study provides a significant advance in our understanding of how the X is targeted for dosage compensation and how this global regulation is integrated with regulation of the expression of each gene.
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[
Nature,
2003]
Understanding how we grow old is a long-sought goal. A new large-scale study of gene expression in worms allows us to glimpse the complex biochemistry of lifespan.
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[
Nat Cell Biol,
2004]
Why are proteins glycosylated? On the basis of new studies, I propose two models to clarify the specific functions of glycosylation in worms. The first explains how intra- and inter-cellular trafficking of an N-glycosylated disintegrin-metalloprotease guides somatic gonadal cells through their migratory route, determining the shape of an organ. The second explains how rigid coats of secreted chondroitin proteoglycans bend membranes to drive cytokinesis and epithelial invagination.
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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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[
Nat Neurosci,
2003]
In C. elegans, social and solitary feeding behavior can be determined by a single amino acid change in a G protein-coupled receptor. A new study identifies ligands for this receptor and suggests how changes in behavior evolve at the molecular level.
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[
Nature,
1977]
Participants in two days of talks held at the Accademia Lincei in Rome-the oldest scientific foundatin in the modern world, tried to tackle the ancient problem of how eggs plus genes produce animals. It was symptomatic of the renewed interest in Drosophila that the whole of the first day was devoted to that fly...
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[
Nature,
1993]
Twenty years ago Sydney Brenner described an electrode-less plan for attacking the problems of neural development and physiology in the small nematode Caenorhabditis elegans. He proposed to set the groundwork by reconstructing the entire nervous system of the worm by serial section electron microscopy. Given the resulting wiring diagram, he thought it might be possible to make guesses as to how the nervous system worked. A second aspect of his plan was genetics: single-gene mutants exhibiting aberrant behaviour, such as uncoordinated movement, were to be analysed to address the question of how genes specify development and function of the nervous system. In two papers beginning on page 334 of this issue, McIntire et al. demonstrate that work on Brenner's plan, with a few tricks added over the years, is progressing very nicely.
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[
Trends Immunol,
2001]
A current area of interplay between immunologists, geneticists and developmental biologists concerns how Toll receptors assumed their dual roles in pathogen recognition end insect embryo patterning. The development of mechanisms that recognize and control infectious pathogens has been essential for the survival of metazoan organisms. Here, Padraic Fallen and colleagues consider the insights that might be gained from using nematodes to study immune signalling pathways.
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[
Science,
1990]
Can a lowly worm help neurobiologists untangle the pathology of Alzheimer's, Huntington's, Parkinson's, and other human brain diseases? That surprising question kept cropping up at a recent Dahlem conference on degenerative brain disorders. Although progress has been made toward understanding those disorders, conference participants had to conclude that they don't yet know nearly enough about how brain cells die. And that's where the lowly worm may
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[
Nat Genet,
2001]
Comparative studies of nematode development provide a powerful framework for investigating the evolution of developmental mechanisms. A recent report also demonstrates how comparative work can inform our understanding of basic developmental signaling pathways. In particular, investigation of the differences in vulva development between Caenorhabditis elegans and Pristionchus pacificus has clarified the molecular relationship between an epidermal growth factor-Ras-MAP kinase signaling pathway and downstream Hox transcription factor activity.