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Functional coordination of intraflagellar transport motors 总被引:1,自引:0,他引:1
Cilia have diverse roles in motility and sensory reception, and defects in cilia function contribute to ciliary diseases such as Bardet-Biedl syndrome (BBS). Intraflagellar transport (IFT) motors assemble and maintain cilia by transporting ciliary precursors, bound to protein complexes called IFT particles, from the base of the cilium to their site of incorporation at the distal tip. In Caenorhabditis elegans, this is accomplished by two IFT motors, kinesin-II and osmotic avoidance defective (OSM)-3 kinesin, which cooperate to form two sequential anterograde IFT pathways that build distinct parts of cilia. By observing the movement of fluorescent IFT motors and IFT particles along the cilia of numerous ciliary mutants, we identified three genes whose protein products mediate the functional coordination of these motors. The BBS proteins BBS-7 and BBS-8 are required to stabilize complexes of IFT particles containing both of the IFT motors, because IFT particles in bbs-7 and bbs-8 mutants break down into two subcomplexes, IFT-A and IFT-B, which are moved separately by kinesin-II and OSM-3 kinesin, respectively. A conserved ciliary protein, DYF-1, is specifically required for OSM-3 kinesin to dock onto and move IFT particles, because OSM-3 kinesin is inactive and intact IFT particles are moved by kinesin-II alone in dyf-1 mutants. These findings implicate BBS ciliary disease proteins and an OSM-3 kinesin activator in the formation of two IFT pathways that build functional cilia. 相似文献
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H. Berke C. Frech A. Lhamazares O. Blacque H.W. Schmalle C. Adlhart P. Chen 《复旦学报(自然科学版)》2005,44(5):625-626
Ring Opening Metathesis Polymerization (ROMP) is based on the olefin metathesis reaction, which requires transition metal catalysts. Mainly molybdenum, tungsten and ruthenium based catalysts have up to now been used. The “in-between” metal rhenium was only rarely applied in olefin metathesis reactions, and not at all in ROMP processes. We have found that cationic phosphine substituted dinitrosyl rhenium complexes 1a and 1b effectively catalyze ROMP of norbonene, dicyclopentadiene and of cyclooctene. See Fig. 1. 相似文献
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Mutations in a member of the Ras superfamily of small GTP-binding proteins causes Bardet-Biedl syndrome 总被引:10,自引:0,他引:10
Fan Y Esmail MA Ansley SJ Blacque OE Boroevich K Ross AJ Moore SJ Badano JL May-Simera H Compton DS Green JS Lewis RA van Haelst MM Parfrey PS Baillie DL Beales PL Katsanis N Davidson WS Leroux MR 《Nature genetics》2004,36(9):989-993
RAB, ADP-ribosylation factors (ARFs) and ARF-like (ARL) proteins belong to the Ras superfamily of small GTP-binding proteins and are essential for various membrane-associated intracellular trafficking processes. None of the approximately 50 known members of this family are linked to human disease. Using a bioinformatic screen for ciliary genes in combination with mutational analyses, we identified ARL6 as the gene underlying Bardet-Biedl syndrome type 3, a multisystemic disorder characterized by obesity, blindness, polydactyly, renal abnormalities and cognitive impairment. We uncovered four different homozygous substitutions in ARL6 in four unrelated families affected with Bardet-Biedl syndrome, two of which disrupt a threonine residue important for GTP binding and function of several related small GTP-binding proteins. Analysis of the Caenorhabditis elegans ARL6 homolog indicates that it is specifically expressed in ciliated cells, and that, in addition to the postulated cytoplasmic functions of ARL proteins, it undergoes intraflagellar transport. These findings implicate a small GTP-binding protein in ciliary transport and the pathogenesis of a pleiotropic disorder. 相似文献
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From a handful of uncloned genetic loci 6 years ago, great strides have been made in understanding the genetic and molecular
aetiology of Bardet-Biedl syndrome (BBS), a rare pleiotropic disorder characterised by a multitude of symptoms, including
obesity, retinal degeneration and cystic kidneys. Presently, 11 BBS genes have been cloned, with the likelihood that yet more BBS genes remain undiscovered. In 2003, a major breakthrough was made when it was shown that BBS is likely caused by defects
in basal bodies and/or primary cilia. Since then, studies in numerous animal models of BBS have corroborated the initial findings
and, in addition, have further refined the specific functions of BBS proteins. These include roles in establishing planar
cell polarity (noncanonical Wnt signaling) in mice and zebrafish, modulating intraflagellar transport and lipid homeostasis
in worms, and regulating intracellular trafficking and centrosomal functions in zebrafish and human tissue culture cells.
From these discoveries, a common theme has emerged, namely that the primary function of BBS proteins may be to mediate and
regulate microtubule-based intracellular transport processes.
Received 20 April 2006; received after revision 30 May 2006; accepted 15 June 2006 相似文献
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