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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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[
Esquire,
1985]
In the end, it is attention to detail that makes all the difference. It's the center fielder's extra two steps to the left, the salesman's memory for names, the lover's phone call, the soldier's clean weapon. It is the thing that separates the men from the boys, and, very often, the living from the dead. Professional success depends on it, regardless of the field. But in big-time genetic research, attention to detail is more than just a good work habit, more than a necessary part of the routine. In big-time genetic research, attention to detail is the very meat and the god of science. It isn't something that's expected; it is simply the way of things. Those in the field, particularly those who lead the field, are slaves to detail. They labor in submerged mines of it, and haul great loads of it up from the bottom of an unseen ocean-the invisible sea of biological phenomena, upon which all living things float. Detail's rule over genetics is total and cruel. Months and even years of work have literally gone down the drain because of the most minor miscalculations. Indeed, perhaps the greatest discovery in the history of the discipline-the double-helix structure of DNA-might have been made by Linus Pauling instead of James D. Watson and Francis H. C. Crick. But Pauling's equations contained a simple mistake in undergraduate-level chemistry, a sin against detail that is now part of the legend. Each of the six scientists singled out here has made his mark by mastering his own particular set of
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[
Nature,
2000]
We thought we knew what spectrin does. Is it not the elastic, membrane-bound protein that prevents red blood cells from rupturing as they circulate in the bloodstream? And does it not have the same supporting function in other cells? The second assumption has seldom been questioned over the past two decades, but has just been overturned by the power of experimental genetics, as described in three reports in the Journal of Cell Biology. The results may bear on human diseases such as muscular dystrophy.
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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.
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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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[
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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[
Mol Psychiatry,
1997]
In the simple, 302-cell nervous system of the soil nematode C. elegans, genetic selection for toxin-resistance was used to isolate mutants with specific defects in synaptic neurotransmission, making it possible to characterize already-known molecules and to identify new components of the machinery required for the release of synaptic vesicles.
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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.