-
[
Nature,
2002]
A humble nematode has wormed its way into the affection of the scientific community and helped to secure this year's Nobel Prize in Physiology or Medicine. The award goes to three biologists whose work on the model organism Caenorhabditis elegans has yielded insights and spin-offs in such diverse fields as cancer research and modern
-
[
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
-
[
Curr Biol,
2001]
The degenerin/epithelial sodium channel (DEG/ ENaC) protein family includes related ion channel subunits from organisms ranging from the simple nematode Caenorhabditis elegans to humans. Members of this protein family have been implicated in functions as diverse as touch transduction and proprioception [1-4], pain sensation and maintenance of sodium balance [5].
-
[
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.
-
[
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.
-
[
Science,
1995]
Sex has lots of advantages, as the number of species that indulge in it shows. But it also poses a potentially lethal problem. Most species use distinct X and Y sex chromosomes to determine who develops as female and who as male-and the female generally has more copies of the X chromosome than the male. But the X chromosome contains many genes needed equally by males and females, threatening females with what could be a lethal excess of X-chromosome gene products-or males with an equally serious deficiency. Researchers have known for decades that humans and other sexually reproducing species survive because of a correcting mechanism known as "dosage compensation" that equalizes the expression of X-linked genes between the sexes. But only now are they beginning to figure out how
-
[
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.
-
[
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.
-
[
Nature,
1996]
Classical results in experimental embryology established long ago that cells of the developing animal have a regional identity. They can be characterized not only as 'skin', 'nerve' and 'bone', but also as 'arm' and 'leg'. But how cells know what body region they belong to, and what to do there, is not known. Results reported in this issue and in Development describe unexpected properties of a key player, one of the Hox genes-the dynamic, lineage-based regulation of a Hox gene in the nematode Caenorhabditis elegans is at odds with a traditional view of Hox genes as relatively fixed markers of regional identity.
-
[
Science,
2002]
The nematode worm known as Caenorhabditis elegans is not much to look at. Just a millimeter long and transparent to boot, it is almost invisible to the naked eye. But in biological research the tiny worm looms large, providing a model system for studying everything from embryonic development to aging. Now, three researchers who pioneered the use of C. elegans as a model organism have won the Nobel Prize in Physiology or Medicine.