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[
Dev Cell,
2017]
In this issue of Developmental Cell, Dickinson etal. (2017) and Rodriguez etal. (2017), along with Wang etal. (2017) in Nature Cell Biology, show how PAR protein oligomerization can dynamically couple protein diffusion and transport by cortical flow to control kinase activity gradients and polarity in the C.elegans zygote.
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[
Worm Breeder's Gazette,
1994]
THE MATERNAL GENE SKN-4 AND THE SPECIFICATION OF VENTRAL BLASTOMERE FATES IN THE EARLY C. ELEGANS EMBRYO Bruce Bowerman, Paula R. Martin, Christopher J. Thorpe, and Christopher A. Shelton. The Institute of Molecular Biology, University of Oregon, Eugene, OR 97403.
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[
Chem Soc Rev,
2009]
On December 10, 2008 Osamu Shimomura, Martin Chalfie and Roger Tsien were awarded the Nobel Prize in Chemistry for "the discovery and development of the green fluorescent protein, GFP". The path taken by this jellyfish protein to become one of the most useful tools in modern science and medicine is described. Osamu Shimomura painstakingly isolated GFP from hundreds of thousands of jellyfish, characterized the chromophore and elucidated the mechanism of Aequorean bioluminescence. Martin Chalfie expressed the protein in E. coli and C. elegans, and Roger Tsien developed a palette of fluorescent proteins that could be used in a myriad of applications.
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[
Worm Breeder's Gazette,
1994]
Cytology of degenerin-induced cell death in the PVM neuron David H. Hall, Guoqiang Gu+, Lei Gong#, Monica Driscoll#, and Martin Chalfie+, * Dept. Neuroscience, Albert Einstein College of Medicine, Bronx, N.Y. 10461 + Dept. Biological Sciences, Columbia University, New York, N.Y. 10027 # Dept. Molecular Biology and Biochemistry, Rutgers University, Piscataway, N.J. 08855
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[
Worm Breeder's Gazette,
1990]
In the previous issue of the WBG (Vol. 11, #3, page 20) we reported the isolation of a cysteine protease clone from a mixed-stage C. elegans cDNA library. This library was originally obtained from Chris Martin and not from Cynthia Kenyon as was reported in the article. Our apologies for any misunderstanding caused by this oversight.
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[
Journal of Gerontology,
1999]
In recent years, oxidative damage to macromolecules has gained popularity as the basis of the molecular mechanism of aging. Martin proposes oxidative damage to macromolecules as one of the major public mechanisms of aging. Interest in modifications of protein by reactive oxygen species in aging was apparently introduced by Stadtman. Although various types of oxidative modifications can occur in proteins, carbonyl residues believed to be generated by metal catalyzed reaction or otherwise introduced by lysine, arginine and/or proline residues in vivo are often used as a marker of direct or
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[
Cell,
2004]
Heterotrimeric G proteins are well known for their function in signal transduction downstream of seven transmembrane receptors. More recently, however, genetic analysis in C. elegans and in Drosophila has revealed a second, essential function of these molecules in positioning the mitotic spindle and attaching microtubules to the cell cortex. Five new publications in Cell (Afshar et al., 2004; Du and Macara, 2004 [this issue of Cell]; Hess et al., 2004), Developmental Cell (Martin-McCaffrey et al., 2004), and Current Biology (Couwenbergs et al., 2004) show that this function is conserved in vertebrates and-like the classical pathway- involves cycling of G proteins between GDP and GTP bound conformations.
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[
Ecotoxicology,
2012]
Caenorhabditis elegans strains carrying stress-reporter green fluorescent protein transgenes were used to explore patterns of response to metals. Multiple stress pathways were induced at high doses by most metals tested, including members of the heat shock, oxidative stress, metallothionein (mtl) and xenobiotic response gene families. A mathematical model (to be published separately) of the gene regulatory circuit controlling mtl production predicted that chemically similar divalent metals (classic inducers) should show additive effects on mtl gene induction, whereas chemically dissimilar metals should show interference. These predictions were verified experimentally; thus cadmium and mercury showed additive effects, whereas ferric iron (a weak inducer) significantly reduced the effect of mercury. We applied a similar battery of tests to diluted samples of soil pore water extracted centrifugally after mixing 20% w/w ultrapure water with air-dried soil from an abandoned lead/zinc mine in the Murcia region of Spain. In addition, metal contents of both soil and soil pore water were determined by ICP-MS, and simplified mixtures of soluble metal salts were tested at equivalent final concentrations. The effects of extracted soil pore water (after tenfold dilution) were closely mimicked by mixtures of its principal component ions, and even by the single most prevalent contaminant (zinc) alone, though other metals modulated its effects both positively and negatively. In general, mixtures containing similar (divalent) metal ions exhibited mainly additive effects, whereas admixture of dissimilar (e.g. trivalent) ions often resulted in interference, reducing overall levels of stress-gene induction. These findings were also consistent with model predictions.
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[
International Worm Meeting,
2003]
Ivermectin is a widely used antiparasitic drug. It kills worms by activating glutamate-gated chloride channels (GluCls), which belong to the family of ligand-gated anion channels that includes the GABA and glutamate receptors (Cully et al., 1994; Dent et al., 2000). The chloride permeability that ivermectin induces in excitable cells tends to prevent excitation. For example, ivermectin targets a GluCl expressed in the pharyngeal muscle to inhibit muscle contraction and prevent eating (Dent et al., 1997). The worms linger for several days in the presence of ivermectin before they starve to death. However, we have found that the lethal effects of ivermectin on C. elegans become irreversible after only a few hours of exposure. When L1 worms were exposed to 20ng/ml for 5 hours and then washed, they gradually developed large vacuoles in their pharyngeal muscle over the next several days. A mutant strain that lacks ivermectin receptors shows little or no necrosis when treated. Ivermectin is hydrophobic and it irreversibly opens GluCls expressed in Xenopus oocytes. So it is possible that ivermectin persists in membranes and continues to activate GluCls. Furthermore, it has been shown that hyperactive cation channels can induce excitotoxic necrosis (Driscoll and Chalfie, 1991). Why, though, would an inhibitory channel have a similar effect when hyperactivated? We are trying to address this question by looking at whether mutations known to inhibit excitotoxicity also inhibit the necrotic effects of ivermectin. Cully DF, Vassilatis DK, Liu KK, Paress PS, Van der Ploeg LHT, Schaeffer JM, Arena JP. Nature 371: 707-711 1994 Dent JA, Smith MM, Vassilatis DK, Avery L. PNAS USA 97: 2674-2679 2000 Dent JA, Davis MW, Avery L. EMBO Journal 16: 5867-5879 1997 Driscoll, M and Chalfie, M. Nature 349: 588-593 1991
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[
Mol Biol Cell,
2008]
Monitoring Editor: Tom U. Martin The anti-epileptic valproate (VPA) is widely used in the treatment of bipolar disorder, although the mechanism of its action in the disorder is unclear. We show here that VPA inhibits both inositol phosphate and diacylglycerol (DAG) signaling in C.elegans. VPA disrupts two behaviors regulated by the inositol 1,4,5-Tris phosphate (IP3): defecation and ovulation. VPA also inhibits two activities regulated by DAG signaling: acetylcholine (ACh) release and egg-laying. The effects of VPA on DAG signaling are relieved by phorbol ester, a DAG analog, suggesting that VPA acts to inhibit DAG production. VPA reduces levels of DAG and IP1, but PIP2 is slightly increased, suggesting that Phospholipase C mediated hydrolysis of PIP2 to form DAG and IP3 is defective in the presence of VPA.