共查询到20条相似文献,搜索用时 923 毫秒
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Towers PR Lescure P Baban D Malek JA Duarte J Jones E Davies KE Ségalat L Sattelle DB 《Genomics》2006,88(5):642-649
The Caenorhabditis elegans genome contains a single dystrophin/utrophin orthologue, dys-1. Point mutations in this gene, dys-1(cx35) and dys-1(cx18), result in truncated proteins. Such mutants offer potentially valuable worm models of human Duchenne muscular dystrophy. We have used microarrays to examine genes expressed differentially between wild-type C. elegans and dys-1 mutants. We found 106 genes (115 probe sets) to be differentially expressed when the two mutants are compared to wild-type worms, 49 of which have been assigned to six functional categories. The main categories of regulated genes in C. elegans are genes encoding intracellular signalling, cell-cell communication, cell-surface, and extracellular matrix proteins; genes in these same categories have been shown by others to be differentially expressed in muscle biopsies of muscular dystrophy patients. The C. elegans model may serve as a convenient vehicle for future genetic and chemical screens to search for new drug targets. 相似文献
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Genomics and the discovery of new drug targets 总被引:3,自引:0,他引:3
Molecular medicine and genomics technologies are inseparable for defining new molecular targets. cDNA databases and elementary informatic tools provide instantaneous glimpses of gene families or tissue-restricted expression patterns as a means of new target identification. In addition, cDNA microarrays and two-dimensional gel electrophoresis unmask the expression of genes with unassigned or unexpected functions. Depletion of mRNA with ribozymes or neutralization of proteins with intracellular antibodies enable investigators to reject or embrace new molecular hypotheses about the determinants of disease, pharmacology or toxicology. 相似文献
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Modulation of caveolae by insulin/IGF‐1 signaling regulates aging of Caenorhabditis elegans 下载免费PDF全文
Hana Boocholez Lorna Moll Filipa Carvalhal Marques Ludmila Golodetzki Yuval Nevo Tayir Elami Ehud Cohen 《EMBO reports》2018,19(8)
Reducing insulin/IGF‐1 signaling (IIS) extends lifespan, promotes protein homeostasis (proteostasis), and elevates stress resistance of worms, flies, and mammals. How these functions are orchestrated across the organism is only partially understood. Here, we report that in the nematode Caenorhabditis elegans, the IIS positively regulates the expression of caveolin‐1 (cav‐1), a gene which is primarily expressed in neurons of the adult worm and underlies the formation of caveolae, a subtype of lipid microdomains that serve as platforms for signaling complexes. Accordingly, IIS reduction lowers cav‐1 expression and lessens the quantity of neuronal caveolae. Reduced cav‐1 expression extends lifespan and mitigates toxic protein aggregation by modulating the expression of aging‐regulating and signaling‐promoting genes. Our findings define caveolae as aging‐governing signaling centers and underscore the potential for cav‐1 as a novel therapeutic target for the promotion of healthy aging. 相似文献