2014
DOI: 10.7554/elife.01948
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A high-resolution morphological and ultrastructural map of anterior sensory cilia and glia in Caenorhabditis elegans

Abstract: Many primary sensory cilia exhibit unique architectures that are critical for transduction of specific sensory stimuli. Although basic ciliogenic mechanisms are well described, how complex ciliary structures are generated remains unclear. Seminal work performed several decades ago provided an initial but incomplete description of diverse sensory cilia morphologies in C. elegans. To begin to explore the mechanisms that generate these remarkably complex structures, we have taken advantage of advances in electron… Show more

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Cited by 189 publications
(382 citation statements)
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References 124 publications
(318 reference statements)
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“…As in the corresponding mammalian chemosensory cells, GPCRs required for sensory signaling are concentrated in cilia present at the dendritic endings of a subset of sensory neurons in C. elegans (Troemel et al 1995;Sengupta et al 1996;Kim et al 2009;McGrath et al 2011;Park et al 2012). In the head, 12 pairs of ciliated sensory neuron types are contained in the bilateral amphid organs (Ward et al 1975;Perkins et al 1986;Doroquez et al 2014). Many of the amphid sensory neurons are multimodal; even within a modality such as chemosensation, each neuron responds to many chemicals (Bargmann and Horvitz 1991;Bargmann et al 1993;Hart et al 1995;Maricq et al 1995;Wes and Bargmann 2001;Biron et al 2008;Kuhara et al 2008;Ortiz et al 2009;Bretscher et al 2011).…”
mentioning
confidence: 99%
“…As in the corresponding mammalian chemosensory cells, GPCRs required for sensory signaling are concentrated in cilia present at the dendritic endings of a subset of sensory neurons in C. elegans (Troemel et al 1995;Sengupta et al 1996;Kim et al 2009;McGrath et al 2011;Park et al 2012). In the head, 12 pairs of ciliated sensory neuron types are contained in the bilateral amphid organs (Ward et al 1975;Perkins et al 1986;Doroquez et al 2014). Many of the amphid sensory neurons are multimodal; even within a modality such as chemosensation, each neuron responds to many chemicals (Bargmann and Horvitz 1991;Bargmann et al 1993;Hart et al 1995;Maricq et al 1995;Wes and Bargmann 2001;Biron et al 2008;Kuhara et al 2008;Ortiz et al 2009;Bretscher et al 2011).…”
mentioning
confidence: 99%
“…Astrocytes are glia and can have multiple functions, including provision of nutrients, maintenance of extracellular ion balance, and in some cases release of neurotransmitters. C. elegans also has glia, including sheath cells that envelop the sensory endings of chemosensory and mechanosensory neurons (37,38). For example, the ciliated sensory endings of neurons in the major chemosensory organs of the worm, the amphids and phasmids, traverse the amphid or phasmid sheath cells in narrow membranous tubes and enter the sensillar channel within the sheath cell.…”
Section: Resultsmentioning
confidence: 99%
“…To investigate whether aging perturbs cilia structure and function in C. elegans, we began by examining the simple rod-like cilia of the ASI sensory neuron pair in the head amphid organs [13,14,37]. ASI cilia were visualized via cell-specific expression of a GFP-tagged SRG-36 pheromone receptor protein, which localizes specifically to ciliary membranes [38] (Fig 1B).…”
Section: Cilia Morphology Is Altered In Late Stages Of Agingmentioning
confidence: 99%