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Ciliopathy-associated proteins are involved in vesicle distribution in sensory cilia

Ming Li Wanzhong He Wei Li Guangshuo Ou

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文章导航 > Journal of Genetics and Genomics  > 2019 >  46(5): 269-271
Ming Li, Wanzhong He, Wei Li, Guangshuo Ou. Ciliopathy-associated proteins are involved in vesicle distribution in sensory cilia[J]. Journal of Genetics and Genomics, 2019, 46(5): 269-271. doi: 10.1016/j.jgg.2019.03.012
Citation: Ming Li, Wanzhong He, Wei Li, Guangshuo Ou. Ciliopathy-associated proteins are involved in vesicle distribution in sensory cilia[J]. Journal of Genetics and Genomics, 2019, 46(5): 269-271. doi: 10.1016/j.jgg.2019.03.012
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doi: 10.1016/j.jgg.2019.03.012
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Ciliopathy-associated proteins are involved in vesicle distribution in sensory cilia

  • 1.

    PTN Graduate Program, School of Life Sciences, Tsinghua University, Beijing, 100084, China

  • 2.

    Tsinghua-Peking Center for Life Sciences, School of Life Sciences, Tsinghua University, Beijing, 100084, China

  • 3.

    National Institute of Biological Science, Beijing, 102206, China

  • 4.

    National Institute of Biological Science, Beijing, 102206, China

  • 5.

    School of Medicine, Tsinghua University, Beijing, 100084, China

  • 6.

    Tsinghua-Peking Center for Life Sciences, School of Life Sciences, Tsinghua University, Beijing, 100084, China

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    • 参考文献(19)
  • [1] Arts, H.H., Bongers, E.M., Mans, D.A., van Beersum, S.E., Oud, M.M., Bolat, E., Spruijt, L., Cornelissen, E.A., Schuurs-Hoeijmakers, J.H., de Leeuw, N., Cormier-Daire, V., Brunner, H.G., Knoers, N.V., Roepman, R., 2011. C14ORF179 encoding IFT43 is mutated in Sensenbrenner syndrome. J. Med. Genet. 48, 390-395.
    [2] Blacque, O.E., Reardon, M.J., Li, C., McCarthy, J., Mahjoub, M.R., Ansley, S.J., Badano, J.L., Mah, A.K., Beales, P.L., Davidson, W.S., Johnsen, R.C., Audeh, M., Plasterk, R.H., Baillie, D.L., Katsanis, N., Quarmby, L.M., Wicks, S.R., Leroux, M.R., 2004. Loss of C. elegans BBS-7 and BBS-8 protein function results in cilia defects and compromised intraflagellar transport. Genes Dev. 18, 1630-1642.
    [3] Chuang, J.Z., Zhao, Y., Sung, C.H., 2007. SARA-regulated vesicular targeting underlies formation of the light-sensing organelle in mammalian rods. Cell 130, 535-547.
    [4] Doroquez, D.B., Berciu, C., Anderson, J.R., Sengupta, P., Nicastro, D., 2014. A high-resolution morphological and ultrastructural map of anterior sensory cilia and glia in Caenorhabditis elegans. eLife. 3, e01948.
    [5] Evans, J.E., Snow, J.J., Gunnarson, A.L., Ou, G., Stahlberg, H., McDonald, K.L., Scholey, J.M., 2006. Functional modulation of IFT kinesins extends the sensory repertoire of ciliated neurons in Caenorhabditis elegans. J. Cell Biol. 172, 663-669.
    [6] Goetz, S.C., Anderson, K.V., 2010. The primary cilium: a signalling centre during vertebrate development. Nat. Rev. Genet. 11, 331-344.
    [7] Johnson, K.A., Haas, M.A., Rosenbaum, J.L., 1994. Localization of a kinesin-related protein to the central pair apparatus of the Chlamydomonas reinhardtii flagellum. J. Cell Sci. 107 ( Pt 6), 1551-1556.
    [8] Kozminski, K.G., Beech, P.L., Rosenbaum, J.L., 1995. The Chlamydomonas kinesin-like protein FLA10 is involved in motility associated with the flagellar membrane. J. Cell Biol. 131, 1517-1527.
    [9] Niwa, S., 2016. The nephronophthisis-related gene ift-139 is required for ciliogenesis in Caenorhabditis elegans. Sci. Rep. 6, 31544.
    [10] Ou, G., Blacque, O.E., Snow, J.J., Leroux, M.R., Scholey, J.M., 2005. Functional coordination of intraflagellar transport motors. Nature 436, 583-587.
    [11] Pazour, G.J., Agrin, N., Leszyk, J., Witman, G.B., 2005. Proteomic analysis of a eukaryotic cilium. J. Cell Biol. 170, 103-113.
    [12] Perkins, L.A., Hedgecock, E.M., Thomson, J.N., Culotti, J.G., 1986. Mutant sensory cilia in the nematode Caenorhabditis elegans. Dev. Biol. 117, 456-487.
    [13] Reese, T.S., 1965. Olfactory cilia in the frog. J. Cell Biol. 25, 209-230.
    [14] Reiter, J.F., Leroux, M.R., 2017. Genes and molecular pathways underpinning ciliopathies. Nat. Rev. Mol. Cell Biol. 18, 533-547.
    [15] Scholey, J.M., 2013. Kinesin-2: a family of heterotrimeric and homodimeric motors with diverse intracellular transport functions. Annu. Rev. Cell Dev. Biol. 29, 443-469.
    [16] Wang, J., Silva, M., Haas, L.A., Morsci, N.S., Nguyen, K.C., Hall, D.H., Barr, M.M., 2014. C. elegans ciliated sensory neurons release extracellular vesicles that function in animal communication. Curr. Biol. 24, 519-525.
    [17] Wood, C.R., Huang, K., Diener, D.R., Rosenbaum, J.L., 2013. The cilium secretes bioactive ectosomes. Curr. Biol. 23, 906-911.
    [18] Yi, P., Li, W.J., Dong, M.Q., Ou, G., 2017. Dynein-driven retrograde intraflagellar transport is triphasic in C. elegans sensory cilia. Curr. Biol. 27, 1448-1461 e1447.
    [19] Zhu, H., Chen, L., Yang, Y., Zhu, Z., Zhang, X., Li, W., Miao, L., Zhang, Y., Ou, G., 2017. The glial actin cytoskeleton regulates neuronal ciliogenesis. Cell Res. 27, 448-451.
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出版历程
  • 收稿日期:  2019-01-21
  • 录用日期:  2019-03-12
  • 修回日期:  2019-03-12
  • 网络出版日期:  2019-05-15
  • 刊出日期:  2019-05-20

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