review article | Q7318358 |
scholarly article | Q13442814 |
P2093 | author name string | Shai Shaham | |
Grigorios Oikonomou | |||
P2860 | cites work | The Structure of the Nervous System of the Nematode Caenorhabditis elegans | Q22337105 |
Rapid Conduction and the Evolution of Giant Axons and Myelinated Fibers | Q22337352 | ||
Equal numbers of neuronal and nonneuronal cells make the human brain an isometrically scaled-up primate brain | Q22337408 | ||
The acid-activated ion channel ASIC contributes to synaptic plasticity, learning, and memory | Q24296641 | ||
Gabapentin receptor alpha2delta-1 is a neuronal thrombospondin receptor responsible for excitatory CNS synaptogenesis | Q24323318 | ||
Glia promote local synaptogenesis through UNC-6 (netrin) signaling in C. elegans | Q24657430 | ||
Glia and muscle sculpt neuromuscular arbors by engulfing destabilized synaptic boutons and shed presynaptic debris | Q27329462 | ||
The immunoglobulin superfamily protein SYG-1 determines the location of specific synapses in C. elegans | Q28182033 | ||
Infantile spasms, dystonia, and other X-linked phenotypes caused by mutations in Aristaless related homeobox gene, ARX | Q28216034 | ||
CHE-14, a protein with a sterol-sensing domain, is required for apical sorting in C. elegans ectodermal epithelial cells | Q47069044 | ||
A genetic pathway for the specification of the vulval cell lineages of Caenorhabditis elegans. | Q47069318 | ||
Neuroglia and pioneer neurons express UNC-6 to provide global and local netrin cues for guiding migrations in C. elegans. | Q47069421 | ||
C. elegans daf-6 encodes a patched-related protein required for lumen formation. | Q47069484 | ||
glial cells missing: a binary switch between neuronal and glial determination in Drosophila. | Q47071551 | ||
Immunohistochemical detection of ENaCbeta in the terminal Schwann cells associated with the periodontal Ruffini endings of the rat incisor | Q47867227 | ||
Elements regulating cell- and stage-specific expression of the C. elegans MyoD family homolog hlh-1. | Q47923846 | ||
Molecular genetics of Aristaless, a prd-type homeo box gene involved in the morphogenesis of proximal and distal pattern elements in a subset of appendages in Drosophila | Q48123269 | ||
Synaptic islands defined by the territory of a single astrocyte | Q48136826 | ||
Three-dimensional relationships between hippocampal synapses and astrocytes. | Q48143813 | ||
Central neuron-glial and glial-glial interactions following axon injury. | Q48461899 | ||
Three-dimensional analysis of dendritic spines. III. Glial sheath. | Q48554260 | ||
Glide directs glial fate commitment and cell fate switch between neurones and glia. | Q51119025 | ||
Ancestral roles of glia suggested by the nervous system of Caenorhabditis elegans. | Q51952335 | ||
mls-2 and vab-3 Control glia development, hlh-17/Olig expression and glia-dependent neurite extension in C. elegans. | Q51956203 | ||
Transmitter release increases intracellular calcium in perisynaptic Schwann cells in situ. | Q55037182 | ||
The Caenorhabditis elegans male: Postembryonic development of nongonadal structures | Q56268223 | ||
Sensory control of dauer larva formation in Caenorhabditis elegans | Q70798229 | ||
Developmental alterations in sensory neuroanatomy of the Caenorhabditis elegans dauer larva | Q71105032 | ||
The epithelial sodium channel (ENaC) in rodent retina, ontogeny and molecular identity | Q73306104 | ||
A look inside | Q95784779 | ||
The embryonic cell lineage of the nematode Caenorhabditis elegans | Q28271877 | ||
The mystery and magic of glia: a perspective on their roles in health and disease | Q28300305 | ||
The mouse tectorins. Modular matrix proteins of the inner ear homologous to components of the sperm-egg adhesion system | Q28511714 | ||
Thrombospondins are astrocyte-secreted proteins that promote CNS synaptogenesis | Q28574686 | ||
Mutant sensory cilia in the nematode Caenorhabditis elegans | Q29615728 | ||
Protoplasmic astrocytes in CA1 stratum radiatum occupy separate anatomical domains | Q29619208 | ||
DEX-1 and DYF-7 establish sensory dendrite length by anchoring dendritic tips during cell migration | Q30487217 | ||
Structural and quantitative analysis of astrocytes in the mouse hippocampus | Q31097047 | ||
The posterior nervous system of the nematode Caenorhabditis elegans: serial reconstruction of identified neurons and complete pattern of synaptic interactions. | Q33512996 | ||
Uniquely hominid features of adult human astrocytes | Q33644376 | ||
Chemosensory organs as models of neuronal synapses | Q33814570 | ||
Sensory experience and sensory activity regulate chemosensory receptor gene expression in Caenorhabditis elegans. | Q33944222 | ||
Mosaic analysis of two genes that affect nervous system structure in Caenorhabditis elegans | Q33953198 | ||
Multiple chemosensory defects in daf-11 and daf-21 mutants of Caenorhabditis elegans. | Q33963634 | ||
All vertebrates started out with a glial blood-brain barrier 4-500 million years ago. | Q34010436 | ||
The Caenorhabditis elegans aristaless orthologue, alr-1, is required for maintaining the functional and structural integrity of the amphid sensory organs | Q34049748 | ||
Interacting genes in nematode dauer larva formation | Q34281914 | ||
The Caenorhabditis elegans dauer larva: developmental effects of pheromone, food, and temperature | Q34712350 | ||
A synaptic DEG/ENaC ion channel mediates learning in C. elegans by facilitating dopamine signalling | Q34889521 | ||
Expression of ram-5 in the structural cell is required for sensory ray morphogenesis in Caenorhabditis elegans male tail | Q35115901 | ||
Activity of the Caenorhabditis elegans UNC-86 POU transcription factor modulates olfactory sensitivity | Q35234911 | ||
Molecular characterization of HLH-17, a C. elegans bHLH protein required for normal larval development | Q36089092 | ||
The scoop on the fly brain: glial engulfment functions in Drosophila | Q36320667 | ||
Sensory signaling-dependent remodeling of olfactory cilia architecture in C. elegans | Q36742107 | ||
A glial DEG/ENaC channel functions with neuronal channel DEG-1 to mediate specific sensory functions in C. elegans | Q36891446 | ||
Chemosensation in C. elegans | Q37020549 | ||
Neurally evoked calcium transients in terminal Schwann cells at the neuromuscular junction | Q37157289 | ||
Intraflagellar transport/Hedgehog-related signaling components couple sensory cilium morphology and serotonin biosynthesis in Caenorhabditis elegans | Q37262305 | ||
Rabbit retinal neurons and glia express a variety of ENaC/DEG subunits | Q40726518 | ||
Glia are essential for sensory organ function in C. elegans | Q42066101 | ||
Acid-sensing ion channels in malignant gliomas | Q42437027 | ||
Electron microscopical reconstruction of the anterior sensory anatomy of the nematodecaenorhabditis elegans | Q43929810 | ||
Control of hippocampal dendritic spine morphology through ephrin-A3/EphA4 signaling | Q44259200 | ||
Synaptic specificity is generated by the synaptic guidepost protein SYG-2 and its receptor, SYG-1. | Q44808758 | ||
Evolution of homeobox genes: Q50 Paired-like genes founded the Paired class | Q45730610 | ||
glial cells missing: a genetic switch that controls glial versus neuronal fate | Q46183159 | ||
The Caenorhabditis elegans LIN-26 protein is required to specify and/or maintain all non-neuronal ectodermal cell fates. | Q47068783 | ||
P433 | issue | 9 | |
P921 | main subject | Caenorhabditis elegans | Q91703 |
neuroglia | Q177105 | ||
P304 | page(s) | 1253-1263 | |
P577 | publication date | 2010-11-02 | |
P1433 | published in | Glia | Q15716658 |
P1476 | title | The glia of Caenorhabditis elegans | |
P478 | volume | 59 |
Q36373794 | A Novel Mechanism of pH Buffering in C. elegans Glia: Bicarbonate Transport via the Voltage-Gated ClC Cl- Channel CLH-1. |
Q42358108 | A Transparent Window into Biology: A Primer on Caenorhabditis elegans |
Q36100107 | Accelerating Gene Discovery by Phenotyping Whole-Genome Sequenced Multi-mutation Strains and Using the Sequence Kernel Association Test (SKAT) |
Q36522506 | Astrocytes revisited: concise historic outlook on glutamate homeostasis and signaling |
Q46571591 | Building stereotypic connectivity: mechanistic insights into structural plasticity from C. elegans |
Q28601083 | C. elegans S6K Mutants Require a Creatine-Kinase-like Effector for Lifespan Extension |
Q37637089 | Caenorhabditis elegans glia modulate neuronal activity and behavior |
Q33920740 | Caenorhabditis elegans male sensory-motor neurons and dopaminergic support cells couple ejaculation and post-ejaculatory behaviors |
Q46096317 | Do Evolutionary Changes in Astrocytes Contribute to the Computational Power of the Hominid Brain? |
Q36203731 | Ectopic fat deposition contributes to age-associated pathology in Caenorhabditis elegans |
Q58766985 | Ensheathing cells utilize dynamic tiling of neuronal somas in development and injury as early as neuronal differentiation |
Q90473554 | Evolution of Neuroglia |
Q28583264 | Evolving concepts of gliogenesis: a look way back and ahead to the next 25 years |
Q37272940 | Extension of the Caenorhabditis elegans Pharyngeal M1 neuron axon is regulated by multiple mechanisms |
Q37967602 | Genetic approaches to study glial cells in the rodent brain. |
Q47897846 | Glia initiate brain assembly through noncanonical Chimaerin-Furin axon guidance in C. elegans |
Q40429780 | Glia-derived neurons are required for sex-specific learning in C. elegans |
Q35772934 | Glial Expression of the Caenorhabditis elegans Gene swip-10 Supports Glutamate Dependent Control of Extrasynaptic Dopamine Signaling |
Q35245310 | Glial development and function in the nervous system of Caenorhabditis elegans |
Q64097537 | Glutamate spillover in C. elegans triggers repetitive behavior through presynaptic activation of MGL-2/mGluR5 |
Q37321630 | Hedgehog signaling regulates gene expression in planarian glia. |
Q38915686 | Human astrocytes: structure and functions in the healthy brain |
Q47958364 | IGDB-2, an Ig/FNIII protein, binds the ion channel LGC-34 and controls sensory compartment morphogenesis in C. elegans. |
Q27316604 | In vivo tactile stimulation-evoked responses in Caenorhabditis elegans amphid sheath glia |
Q41383442 | On the morphogenesis of glial compartments in the sensory organs of Caenorhabditis elegans |
Q36818282 | PROS-1/Prospero Is a Major Regulator of the Glia-Specific Secretome Controlling Sensory-Neuron Shape and Function in C. elegans |
Q49917383 | Physiology of Astroglia. |
Q37315707 | Probing the enigma: unraveling glial cell biology in invertebrates |
Q41596726 | Regulation of neuronal axon specification by glia-neuron gap junctions in C. elegans |
Q35663393 | Some, but not all, retromer components promote morphogenesis of C. elegans sensory compartments |
Q38098567 | Spinal cord regeneration: where fish, frogs and salamanders lead the way, can we follow? |
Q46321594 | Stratification of astrocytes in healthy and diseased brain |
Q51759946 | The African turquoise killifish: A research organism to study vertebrate aging and diapause. |
Q90473549 | The Concept of Neuroglia |
Q35980925 | The Nkx5/HMX homeodomain protein MLS-2 is required for proper tube cell shape in the C. elegans excretory system |
Q38885831 | The homeostatic astroglia emerges from evolutionary specialization of neural cells |
Q90628355 | Vitamin B12 Regulates Glial Migration and Synapse Formation through Isoform-Specific Control of PTP-3/LAR PRTP Expression |
Q36215907 | Whole-Organism Developmental Expression Profiling Identifies RAB-28 as a Novel Ciliary GTPase Associated with the BBSome and Intraflagellar Transport |
Q38214677 | Worming forward: amyotrophic lateral sclerosis toxicity mechanisms and genetic interactions in Caenorhabditis elegans |
Q64334712 | Wound healing, cellular regeneration and plasticity: the elegans way |
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