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The Journal of NIH Research,
1991]
Cowabugna, dudes! Those lean, gene-revealing machines have scored a most totally excellent victory in the battle to understand aging. We are, of course, talking about mutant ninja nematodes here. At a conference on aging in January at Cold Spring Harbor's Banbury Center, Thomas Johnson of the Institute for Behavioral Genetics at the University of Colorado in Boulder brought some dudes and dudettes from Capitol Hill up to date on the latest awesome achievements of the bodacious beasts know as Caenorhabditis elegans.
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Nat Neurosci,
2003]
A new study in this issue demonstrates that two GABAergic motor neurons in C. elegans are excitatory at target muscles because GABA activates a ligand-gated cation conductance, which is structurally similar to several other ligand-gated channels.
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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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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.
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[
Discover,
1991]
Undulating under the microscope, its muscle and nerve cells visible within its transparent body, the tiny roundworm Caenorhabditis elegans is normally a creature of surprising grace. But one mutant strain is not elegans at all. It thrashes about in such an uncoordinated fashion that researchers have dubbed the mutant worm "unc"...
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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,
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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Nat Cell Biol,
2005]
It has long been known that the mammalian small GTPase Rab5 is involved in clathrin-mediated endocytosis. However, most Rab5-interacting proteins are localized to endosomes rather than to the plasma membrane. A newly discovered nucleotide-exchange factor for Rab5 in Caenorhabditis elegans now provides the missing link for activating Rab5 at the plasma membrane.
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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,
1996]
Geoffrey Gold, a physiologist at the Monell Chemical Senses Center in Philadelphia, had wanted for years to put to rest a nagging question: How do odors trigger olfactory neurons to fire off action potentials to the brain? The dogma for the past 5 years had been that odors fall into two catagories, each of which acts via a different inracellular messenger molecule. But Gold believed this view was wrong, and that all odors work by increasing the production of the intracellular messenger cyclic AMP (cAMP). One day last spring, Gold got a phone call out of the blue from neurobiologist John Ngai, at the University of California (UC), Berkeley, offering the possibility of answering this question. It was my dream come true," says Gold. ......