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[
Neuron,
2001]
Weighing in at about 5 ug, with 302 neurons and 5000 synapses, C. elegans is unlikely to prove theorems, write poetry, or challenge Mike Tyson. Still, remarkable behavioral complexity is packed into this tiny worm.
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[
Curr Biol,
2012]
The genetics and predictable cell death lineages in Caenorhabditis elegans have been critical for identifying a conserved apoptosis pathway. Yet, cells still die in mutants that disrupt this pathway. A recent study shows that this death occurs by cell shedding.
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[
Genes Dev,
2013]
The health benefits of specific fatty acids and physiological roles of fat metabolism are important subjects that are still poorly understood. In this issue of Genes & Development, O'Rourke and colleagues (pp. 429-440) uncovered a role for lipase-generated -6 fatty acids in promoting autophagy and, consequently, life span extension under both fed and fasting conditions. The impact of this finding is discussed with regard to the nutritional value of -6 fatty acids and regulatory functions of fat metabolism beyond its well-known role in energy storage.
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[
Nature,
1998]
The human genome is predicted to contain between 50,000 and 100,000 genes. To work out what these genes do, an array of techniques is needed to evaluate the protein-protein interactions and biochemical pathways of any gene product. The nematode worm Caenorhabditis elegans is an excellent system for such studies because of its well-understood genetics and development, evolutionary conservation to human genes, small genome size and relatively short life cycle. The 100-megabase-pair genome will be completely sequenced this year, and a total of 17,000 genes have been predicted, many with human counterparts. Approaches used to manipulate gene expression in C. elegans include transposon-mediated deletion, antisense inhibition and direct isolation of deletions after mutagenesis. Although these methods have proved useful, limitations still exist.
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[
Nature,
1998]
Cytochrome c leads a double life. When a cell is called on to commit apoptotic suicide, cytochrome c relocalizes from the mitochondria to the cytosol. There, it helps to activate the foot-soldiers of apoptosis - the death proteases known as caspases. How cytochrome c escapes from the mitochondria is still a matter of debate, but it is clear that certain elements within the apoptotic regulatory hierarchy do not condone such behavior. In particular, overexpression of the cell-death suppressors Bcl-2 and Bcl-xL prevents the release of cytochrome c, suggesting that these proteins act upstream of cytochrome c in the pathway to death. However, on pages 449 and 496 of this issue, Zhivotovsky et al. and Rosse et al. show that Bcl-2 can also protect cells downstream of cytochrome c release, forcing a re-evaluation of this newly acquired dogma.
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[
Zh Obshch Biol,
2004]
The early embryonic development of Nematoda proceeds by three ways, which strictly correspond to three phylogenetic lineages. Under the first way the endodermal precursor is localized in the posterior blastomere at the two-cells stage (such a determination is the peculiarity of all the Chromadoria, including Secernentea and Caenorhabditis elegans). Under the second way the endodermal precursor is localized in the anterior blastomere of the egg. This feature is very unusual for Metazoa, but it is the only way of entoderm determination in all the Dorylaimia orders (Mononchida, Mermithida, Trichinellida, Dioctophymida, Dorylaimida). The third way described for the sea Enoplida is characterized with variable location of blastomers and changeable localization of endodermal precursor before eight-cells stage. It is still unknown of these three variants was typical the most recent common ancestor of present Nematoda. D.A. Voronov (2001) produced argument in favour of variable cleavage as primitive one for Nematoda. This opinion is rejected because of the similarity in development between sea Enoplida and C. elegans. Both of them share such features as low-cell gastrula and neurula, identical phylotypic lima bean stage of embryogenesis, identity of some geometrical figures 4 or 8 blastomers, isolating of the endodermal precursor at the eight-cells stage, the lack in development of any plesiomorphous features, which are widely distributed outside Nematoda (under the variable cleavage of Enoplida there are no such locations of blastomers, which are typical for spiral or radial cleavage, there are no embryonic leaves as well). One can see the homology of separate cells at adult Enoplida and Rhabditia. Cell lineage of Triplonchida as far as it is described at Tobrilus gracilis doesn't exclude the hypothesis on their origin from the cleavage similar to one of present Dorylaimia with localization of the endodermal precursor in the anterior blastomere. In view of all the considerations mentioned above one should interpret variable cleavage of Enoplida as derivation from invariant cleavage