Literature DB >> 19344940

DEX-1 and DYF-7 establish sensory dendrite length by anchoring dendritic tips during cell migration.

Maxwell G Heiman1, Shai Shaham.   

Abstract

Cells are devices whose structures delimit function. For example, in the nervous system, neuronal and glial shapes dictate paths of information flow. To understand how cells acquire their shapes, we examined the formation of a sense organ in C. elegans. Using time-lapse imaging, we found that sensory dendrites form by stationary anchoring of dendritic tips during cell-body migration. A genetic screen identified DEX-1 and DYF-7, extracellular proteins required for dendritic tip anchoring, which act cooperatively at the time and place of anchoring. DEX-1 and DYF-7 contain, respectively, zonadhesin and zona pellucida domains, and DYF-7 self-associates into multimers important for anchoring. Thus, unlike other dendrites, amphid dendritic tips are positioned by DEX-1 and DYF-7 without the need for long-range guidance cues. In sequence and function, DEX-1 and DYF-7 resemble tectorins, which anchor stereocilia in the inner ear, suggesting that a sensory dendrite anchor may have evolved into part of a mechanosensor.

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Year:  2009        PMID: 19344940      PMCID: PMC2673108          DOI: 10.1016/j.cell.2009.01.057

Source DB:  PubMed          Journal:  Cell        ISSN: 0092-8674            Impact factor:   41.582


  49 in total

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Journal:  Proc Natl Acad Sci U S A       Date:  2002-09-23       Impact factor: 11.205

2.  Towing of sensory axons by their migrating target cells in vivo.

Authors:  Darren Gilmour; Holger Knaut; Hans-Martin Maischein; Christiane Nüsslein-Volhard
Journal:  Nat Neurosci       Date:  2004-04-18       Impact factor: 24.884

Review 3.  Maintenance of C. elegans.

Authors:  Theresa Stiernagle
Journal:  WormBook       Date:  2006-02-11

4.  The mouse tectorins. Modular matrix proteins of the inner ear homologous to components of the sperm-egg adhesion system.

Authors:  P K Legan; A Rau; J N Keen; G P Richardson
Journal:  J Biol Chem       Date:  1997-03-28       Impact factor: 5.157

5.  DIG-1, a novel giant protein, non-autonomously mediates maintenance of nervous system architecture.

Authors:  Claire Y Bénard; Alexander Boyanov; David H Hall; Oliver Hobert
Journal:  Development       Date:  2006-08-03       Impact factor: 6.868

Review 6.  Zona pellucida domain proteins.

Authors:  Luca Jovine; Costel C Darie; Eveline S Litscher; Paul M Wassarman
Journal:  Annu Rev Biochem       Date:  2005       Impact factor: 23.643

7.  Positioning of longitudinal nerves in C. elegans by nidogen.

Authors:  S Kim; W G Wadsworth
Journal:  Science       Date:  2000-04-07       Impact factor: 47.728

8.  Multiple regulatory elements with spatially and temporally distinct activities control the expression of the epithelial differentiation gene lin-26 in C. elegans.

Authors:  Frédéric Landmann; Sophie Quintin; Michel Labouesse
Journal:  Dev Biol       Date:  2004-01-15       Impact factor: 3.582

9.  Molecular cloning of Ebnerin, a von Ebner's gland protein associated with taste buds.

Authors:  X J Li; S H Snyder
Journal:  J Biol Chem       Date:  1995-07-28       Impact factor: 5.157

10.  The pha-4 gene is required to generate the pharyngeal primordium of Caenorhabditis elegans.

Authors:  S E Mango; E J Lambie; J Kimble
Journal:  Development       Date:  1994-10       Impact factor: 6.868
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  89 in total

1.  Some, but not all, retromer components promote morphogenesis of C. elegans sensory compartments.

Authors:  Grigorios Oikonomou; Elliot A Perens; Yun Lu; Shai Shaham
Journal:  Dev Biol       Date:  2011-11-23       Impact factor: 3.582

2.  The Nkx5/HMX homeodomain protein MLS-2 is required for proper tube cell shape in the C. elegans excretory system.

Authors:  Ishmail Abdus-Saboor; Craig E Stone; John I Murray; Meera V Sundaram
Journal:  Dev Biol       Date:  2012-04-17       Impact factor: 3.582

Review 3.  Egg Coat Proteins Across Metazoan Evolution.

Authors:  Emily E Killingbeck; Willie J Swanson
Journal:  Curr Top Dev Biol       Date:  2018-05-07       Impact factor: 4.897

Review 4.  Combinatorial decoding of the invariant C. elegans embryonic lineage in space and time.

Authors:  Amanda L Zacharias; John Isaac Murray
Journal:  Genesis       Date:  2016-03-19       Impact factor: 2.487

5.  Epithelial Shaping by Diverse Apical Extracellular Matrices Requires the Nidogen Domain Protein DEX-1 in Caenorhabditis elegans.

Authors:  Jennifer D Cohen; Kristen M Flatt; Nathan E Schroeder; Meera V Sundaram
Journal:  Genetics       Date:  2018-11-08       Impact factor: 4.562

6.  Comparative analysis of the secretome from a model filarial nematode (Litomosoides sigmodontis) reveals maximal diversity in gravid female parasites.

Authors:  Stuart D Armstrong; Simon A Babayan; Nathaly Lhermitte-Vallarino; Nick Gray; Dong Xia; Coralie Martin; Sujai Kumar; David W Taylor; Mark L Blaxter; Jonathan M Wastling; Benjamin L Makepeace
Journal:  Mol Cell Proteomics       Date:  2014-06-23       Impact factor: 5.911

7.  IGDB-2, an Ig/FNIII protein, binds the ion channel LGC-34 and controls sensory compartment morphogenesis in C. elegans.

Authors:  Wendy Wang; Elliot A Perens; Grigorios Oikonomou; Sean W Wallace; Yun Lu; Shai Shaham
Journal:  Dev Biol       Date:  2017-08-10       Impact factor: 3.582

8.  Morphogenesis of neurons and glia within an epithelium.

Authors:  Isabel I C Low; Claire R Williams; Megan K Chong; Ian G McLachlan; Bradley M Wierbowski; Irina Kolotuev; Maxwell G Heiman
Journal:  Development       Date:  2019-02-20       Impact factor: 6.868

9.  Local microtubule organization promotes cargo transport in C. elegans dendrites.

Authors:  Martin Harterink; Stacey L Edwards; Bart de Haan; Kah Wai Yau; Sander van den Heuvel; Lukas C Kapitein; Kenneth G Miller; Casper C Hoogenraad
Journal:  J Cell Sci       Date:  2018-10-22       Impact factor: 5.285

Review 10.  Assisted morphogenesis: glial control of dendrite shapes.

Authors:  Carl Procko; Shai Shaham
Journal:  Curr Opin Cell Biol       Date:  2010-08-02       Impact factor: 8.382
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