, Curr Biol, vol.20, pp.55-61

P. K. Legan, A. Rau, J. N. Keen, and G. P. Richardson, The mouse tectorins. Modular matrix proteins of the inner ear homologous to components of the sperm-egg adhesion system, J Biol Chem, vol.272, pp.8791-8801, 1997.

B. Leung, G. J. Hermann, and J. R. Priess, Organogenesis of the Caenorhabditis elegans intestine, Dev Biol, vol.216, pp.114-134, 1999.

X. Liang, X. Dong, D. G. Moerman, K. Shen, and X. Wang, Sarcomeres Pattern Proprioceptive Sensory Dendritic Endings through UNC-52/Perlecan in C. elegans, Dev Cell, vol.33, pp.388-400, 2015.

S. Liégeois, A. Benedetto, G. Michaux, G. Belliard, and M. Labouesse, Genes required for osmoregulation and apical secretion in Caenorhabditis elegans, Genetics, vol.175, pp.709-724, 2007.

A. J. Ligtenberg, E. C. Veerman, A. V. Nieuw-amerongen, and J. Mollenhauer, , 2007.

, Salivary agglutinin/glycoprotein-340/DMBT1: a single molecule with variable composition and with different functions in infection, inflammation and cancer, Biol Chem, vol.388, pp.1275-1289

X. Liu, X. Wang, and K. Shen, Receptor tyrosine phosphatase CLR-1 acts in skin cells to promote sensory dendrite outgrowth, Dev Biol, vol.413, pp.60-69, 2016.

C. A. Lockwood, A. M. Lynch, and J. Hardin, Dynamic analysis identifies novel roles for DLG-1 subdomains in AJM-1 recruitment and LET-413-dependent apical focusing, J Cell Sci, vol.121, pp.1477-1487, 2008.

M. Maduro and D. Pilgrim, Identification and cloning of unc-119, a gene expressed in the Caenorhabditis elegans nervous system, Genetics, vol.141, pp.977-988, 1995.

V. P. Mancuso, J. M. Parry, L. Storer, C. Poggioli, K. C. Nguyen et al., Extracellular leucine-rich repeat proteins are required to organize the apical extracellular matrix and maintain epithelial junction integrity in C. elegans, Development, vol.139, pp.979-990, 2012.

I. V. Matveev, L. S. Adonin, T. G. Shaposhnikova, and O. I. Podgornaya, Aurelia aurita-Cnidarian with a prominent medusiod stage, J Exp Zool B Mol Dev Evol, vol.318, pp.1-12, 2012.

I. G. Mclachlan and M. G. Heiman, Shaping dendrites with machinery borrowed from epithelia, Curr Opin Neurobiol, vol.23, pp.1005-1010, 2013.

C. C. Mello, J. M. Kramer, D. Stinchcomb, and V. Ambros, Efficient gene transfer in C.elegans: extrachromosomal maintenance and integration of transforming sequences, EMBO J, vol.10, pp.3959-3970, 1991.

G. Michaux, A. Gansmuller, C. Hindelang, and M. Labouesse, CHE-14, a protein with a sterol-sensing domain, is required for apical sorting in C. elegans ectodermal epithelial cells, Curr Biol, vol.10, pp.1098-1107, 2000.

G. Minevich, D. S. Park, D. Blankenberg, R. J. Poole, and O. Hobert, CloudMap: a cloud-based pipeline for analysis of mutant genome sequences, Genetics, vol.192, pp.1249-1269, 2012.

I. V. Nechipurenko, A. Olivier-mason, A. Kazatskaya, J. Kennedy, I. G. Mclachlan et al., A Conserved Role for Girdin in Basal Body Positioning and Ciliogenesis, Dev Cell, vol.38, pp.493-506, 2016.

P. A. Nguyen, W. Liou, D. H. Hall, and M. R. Leroux, Ciliopathy proteins establish a bipartite signaling compartment in a C. elegans thermosensory neuron, J Cell Sci, vol.127, pp.5317-5330, 2014.

G. Oikonomou, E. A. Perens, Y. Lu, and S. Shaham, Some, but not all, retromer components promote morphogenesis of C. elegans sensory compartments, Dev Biol, vol.362, pp.42-49, 2012.

G. Oikonomou, E. A. Perens, Y. Lu, S. Watanabe, E. M. Jorgensen et al., Opposing activities of LIT-1/NLK and DAF-6/patched-related direct sensory in C. elegans, PLoS Biol, vol.9, 2011.

J. Z. Parrish, P. Xu, C. C. Kim, L. Y. Jan, and Y. N. Jan, The microRNA bantam functions in epithelial cells to regulate scaling growth of dendrite arbors in drosophila sensory neurons, Neuron, vol.63, pp.788-802, 2009.

E. M. Peden and M. M. Barr, The KLP-6 kinesin is required for male mating behaviors and polycystin localization in Caenorhabditis elegans, Curr Biol, vol.15, pp.394-404, 2005.

E. A. Perens and S. Shaham, C. elegans daf-6 encodes a patched-related protein required for lumen formation, Dev Cell, vol.8, pp.893-906, 2005.

L. A. Perkins, E. M. Hedgecock, J. N. Thomson, and J. G. Culotti, Mutant sensory cilia in the nematode Caenorhabditis elegans, Dev Biol, vol.117, pp.456-487, 1986.

S. Plaza, H. Chanut-delalande, I. Fernandes, P. M. Wassarman, and F. Payre, , 2010.

, From A to Z: apical structures and zona pellucida-domain proteins, Trends Cell Biol, vol.20, pp.524-532

C. Procko, Y. Lu, and S. Shaham, Glia delimit shape changes of sensory neuron receptive endings in C. elegans, Development, vol.138, pp.1371-1381, 2011.

P. Pu, C. E. Stone, J. T. Burdick, J. I. Murray, and M. V. Sundaram, The Lipocalin LPR-1 Cooperates with LIN-3/EGF Signaling To Maintain Narrow Tube Integrity in, Genetics, vol.205, pp.1247-1260, 2017.

D. Roggenbuck, D. Reinhold, P. Schierack, D. P. Bogdanos, K. Conrad et al., Crohn's disease specific pancreatic antibodies: clinical and pathophysiological challenges, Clin Chem Lab Med, vol.52, pp.483-494, 2014.

S. D. Roper, Taste buds as peripheral chemosensory processors, Semin Cell Dev Biol, vol.24, pp.71-79, 2013.

J. B. Rosa, M. M. Metzstein, A. S. Ghabrial, P. Salis, F. Payre et al., Crumbs, Moesin and Yurt regulate junctional stability and dynamics for a proper morphogenesis of the Drosophila pupal wing epithelium, PLoS Genet, vol.14, 2017.

M. Sammut, S. J. Cook, K. C. Nguyen, T. Felton, D. H. Hall et al., Glia-derived neurons are required for sex-specific learning in C. elegans, Nature, vol.526, pp.385-390, 2015.

H. Sasakura, H. Inada, A. Kuhara, E. Fusaoka, D. Takemoto et al., Maintenance of neuronal positions in organized ganglia by SAX-7, a Caenorhabditis elegans homologue of L1, EMBO J, vol.24, pp.1477-1488, 2005.

C. Schaeffer, S. Santambrogio, S. Perucca, G. Casari, and L. Rampoldi, Analysis of uromodulin polymerization provides new insights into the mechanisms regulating ZP domain-mediated protein assembly, Mol Biol Cell, vol.20, pp.589-599, 2009.

C. Schell, M. Rogg, M. Suhm, M. Helmstädter, D. Sellung et al., The FERM protein EPB41L5 regulates actomyosin contractility and focal adhesion formation to maintain the kidney filtration barrier, Proc Natl Acad Sci U S A, vol.114, pp.4621-4630, 2017.

A. Singhvi, B. Liu, C. J. Friedman, J. Fong, Y. Lu et al., , 2016.

A. Glial and K. , Cl Transporter Controls Neuronal Receptive Ending Shape by Chloride Inhibition of an rGC, Cell, vol.165, pp.936-948

A. Steinke, S. Meier-stiegen, D. Drenckhahn, and E. Asan, Molecular composition of tight and adherens junctions in the rat olfactory epithelium and fila, Histochem Cell Biol, vol.130, pp.339-361, 2008.

T. Stiernagle, Maintenance of C. elegans. WormBook 1-11, 2006.

C. E. Stone, D. H. Hall, and M. V. Sundaram, Lipocalin signaling controls unicellular tube development in the Caenorhabditis elegans excretory system, Dev Biol, vol.329, pp.201-211, 2009.

J. E. Sulston and H. R. Horvitz, Post-embryonic cell lineages of the nematode, Caenorhabditis elegans, Dev Biol, vol.56, pp.110-156, 1977.

J. E. Sulston, E. Schierenberg, J. G. White, and J. N. Thomson, The embryonic cell lineage of the nematode Caenorhabditis elegans, Dev Biol, vol.100, pp.64-119, 1983.

M. V. Sundaram and M. Buechner, The Caenorhabditis elegans Excretory System: A Model for Tubulogenesis, Cell Fate Specification, and Plasticity, Genetics, vol.203, pp.35-63, 2016.

M. V. Sundaram and J. D. Cohen, Time to make the doughnuts: Building and shaping seamless tubes, Semin Cell Dev Biol, vol.67, pp.123-131, 2017.

C. M. Tenenbaum, M. Misra, R. A. Alizzi, and E. R. Gavis, Enclosure of Dendrites by Epidermal Cells Restricts Branching and Permits Coordinated Development of Spatially Overlapping Sensory Neurons, Cell Rep, vol.20, pp.3043-3056, 2017.

D. M. Tobin, D. M. Madsen, A. Kahn-kirby, E. L. Peckol, G. Moulder et al., Combinatorial expression of TRPV channel proteins defines their sensory functions and subcellular localization in C. elegans neurons, Neuron, vol.35, pp.307-318, 2002.

E. L. Tsalik, T. Niacaris, A. S. Wenick, K. Pau, L. Avery et al., LIM homeobox gene-dependent expression of biogenic amine receptors in restricted regions of the C. elegans nervous system, Dev Biol, vol.263, pp.81-102, 2003.

S. W. Wallace, A. Singhvi, Y. Liang, Y. Lu, and S. Shaham, PROS-1/Prospero Is a Major Regulator of the Glia-Specific Secretome Controlling Sensory-Neuron Shape and Function in C. elegans, Cell Rep, vol.15, pp.550-562, 2016.

F. Wang, D. P. Julien, and A. Sagasti, Journey to the skin: Somatosensory peripheral axon guidance and morphogenesis, Cell Adh Migr, vol.7, pp.388-394, 2013.

S. Wang, S. A. Jayaram, J. Hemphälä, K. A. Senti, V. Tsarouhas et al., Septate-junction-dependent luminal deposition of chitin deacetylases restricts tube elongation in the Drosophila trachea, Curr Biol, vol.16, pp.180-185, 2006.

W. Wang, E. A. Perens, G. Oikonomou, S. W. Wallace, Y. Lu et al., , 2017.

, IGDB-2, an Ig/FNIII protein, binds the ion channel LGC-34 and controls sensory compartment morphogenesis in C. elegans, Dev Biol, vol.430, pp.105-112

Y. Wang, A. Apicella, S. K. Lee, M. Ezcurra, R. D. Slone et al., A glial DEG/ENaC channel functions with neuronal channel DEG-1 to mediate specific sensory functions in C. elegans, EMBO J, vol.27, pp.2388-2399, 2008.

S. Ward, N. Thomson, J. G. White, and S. Brenner, Electron microscopical reconstruction of the anterior sensory anatomy of the nematode Caenorhabditis elegans, J Comp Neurol, vol.160, pp.313-337, 1975.

J. G. White, E. Southgate, J. N. Thomson, and S. Brenner, The structure of the nervous system of the nematode Caenorhabditis elegans, Philos Trans R Soc Lond B Biol Sci, vol.314, pp.1-340, 1986.

M. B. Wilkin, M. N. Becker, D. Mulvey, I. Phan, A. Chao et al., Drosophila dumpy is a gigantic extracellular protein required to maintain tension at epidermal-cuticle attachment sites, Curr Biol, vol.10, pp.559-567, 2000.

S. Yu, L. Avery, E. Baude, and D. L. Garbers, Guanylyl cyclase expression in specific sensory neurons: a new family of chemosensory receptors, Proc Natl Acad Sci U S A, vol.94, pp.3384-3387, 1997.

T. Zhu, X. Liang, X. M. Wang, and K. Shen, Dynein and EFF-1 control dendrite morphology by regulating the localization pattern of SAX-7 in epidermal cells, J Cell Sci, vol.130, pp.4063-4071, 2017.

A. Zimmerman, L. Bai, and D. D. Ginty, The gentle touch receptors of mammalian, 2014.