HuC/HuD Monoclonal Antibody (16A11) | Invitrogen A-21271 product information

product summary

company name :

Invitrogen

other brands :

NeoMarkers, Lab Vision, Endogen, Pierce, BioSource International, Zymed Laboratories, Caltag, Molecular Probes, Research Genetics, Life Technologies, Applied Biosystems, GIBCO BRL, ABgene, Dynal, Affinity BioReagents, Nunc, Invitrogen, NatuTec, Oxoid, Richard-Allan Scientific, Arcturus, Perseptive Biosystems, Proxeon, eBioscience

product type :

antibody

product name :

HuC/HuD Monoclonal Antibody (16A11)

catalog :

A-21271

quantity :

100 µg

price :

US 339.00

clonality :

monoclonal

host :

mouse

conjugate :

biotin

clone name :

16A11

reactivity :

river trout , Japanese rice fish, Atlantic canary, goldfish, true eels, Caucasian squirrel, society finch, Trachemys dorbigni, Hawaiian perch, Gallot's lizard, bank vole, Apteronotus leptorhynchus, lepidosaurs, Japanese quail, guinea pig, smaller spotted dogfish, zebra finch, tiger puffer, human, mouse, rat, chicken, pigs , zebrafish , domestic sheep, Xenopus laevis, domestic horse, rhesus macaque

application :

western blot, ELISA, immunohistochemistry, immunocytochemistry, immunohistochemistry - paraffin section, immunohistochemistry - frozen section, immunohistochemistry - free floating section

more info or order :

Invitrogen product webpage

citations: 508

Published Application/Species/Sample/Dilution	Reference
immunohistochemistry; mouse; 1:300; loading ...; fig 7f	Völkner M, Kurth T, Schor J, Ebner L, Bardtke L, Kavak C, et al. Mouse Retinal Organoid Growth and Maintenance in Longer-Term Culture. Front Cell Dev Biol. 2021;9:645704 pubmed publisher
immunohistochemistry - frozen section; mouse; loading ...; fig 1c	Deng X, Iwagawa T, Fukushima M, Suzuki Y, Watanabe S. Setd1a Plays Pivotal Roles for the Survival and Proliferation of Retinal Progenitors via Histone Modifications of Uhrf1. Invest Ophthalmol Vis Sci. 2021;62:1 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:50; loading ...; fig e3d	Jamadagni P, Breuer M, Schmeisser K, Cardinal T, Kassa B, Parker J, et al. Chromatin remodeller CHD7 is required for GABAergic neuron development by promoting PAQR3 expression. EMBO Rep. 2021;22:e50958 pubmed publisher
immunohistochemistry; mouse; loading ...; fig s12j	Yoshinaga S, Shin M, Kitazawa A, Ishii K, Tanuma M, Kasai A, et al. Comprehensive characterization of migration profiles of murine cerebral cortical neurons during development using FlashTag labeling. iScience. 2021;24:102277 pubmed publisher
immunohistochemistry - frozen section; pigs ; 1:200; loading ...; fig 1a	Toschi A, Galiazzo G, Piva A, Tagliavia C, Mazzuoli Weber G, Chiocchetti R, et al. Cannabinoid and Cannabinoid-Related Receptors in the Myenteric Plexus of the Porcine Ileum. Animals (Basel). 2021;11: pubmed publisher
immunohistochemistry; human; 1:50; loading ...; fig 3a	Mohsin M, Souza L, Aliabadi S, Worker C, Cooper S, Afrin S, et al. Increased (Pro)renin Receptor Expression in the Hypertensive Human Brain. Front Physiol. 2020;11:606811 pubmed publisher
immunohistochemistry; human; 1:500; loading ...; fig s3b	Pellegrini L, Bonfio C, Chadwick J, Begum F, Skehel M, Lancaster M. Human CNS barrier-forming organoids with cerebrospinal fluid production. Science. 2020;: pubmed publisher
immunohistochemistry - free floating section; rat; 1:200; loading ...; fig 2a1	Bombardi C, Delicata F, Tagliavia C, Pierucci M, Deidda G, Casarrubea M, et al. Acute and Chronic Nicotine Exposures Differentially Affect Central Serotonin 2A Receptor Function: Focus on the Lateral Habenula. Int J Mol Sci. 2020;21: pubmed publisher
immunocytochemistry; human; loading ...; fig 3a	Fares M, Cochet Bernoin M, Gonzalez G, Montero Menei C, Blanchet O, Benchoua A, et al. Pathological modeling of TBEV infection reveals differential innate immune responses in human neurons and astrocytes that correlate with their susceptibility to infection. J Neuroinflammation. 2020;17:76 pubmed publisher
immunohistochemistry; rat; 1:35; loading ...; fig 4, 5	Plaisier F, Hume C, Menzies J. Neural connectivity between the hypothalamic supramammillary nucleus and appetite- and motivation-related regions of the rat brain. J Neuroendocrinol. 2020;32:e12829 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:250; loading ...; fig 6d	Lange C, Rost F, Machate A, Reinhardt S, Lesche M, Weber A, et al. Single cell sequencing of radial glia progeny reveals the diversity of newborn neurons in the adult zebrafish brain. Development. 2020;147: pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:300; loading ...; fig 2d	Bhattarai P, Cosacak M, Mashkaryan V, Demir S, Popova S, Govindarajan N, et al. Neuron-glia interaction through Serotonin-BDNF-NGFR axis enables regenerative neurogenesis in Alzheimer's model of adult zebrafish brain. PLoS Biol. 2020;18:e3000585 pubmed publisher
immunohistochemistry - frozen section; chicken; loading ...; fig 1e	Margarido A, Le Guen L, Falco A, Faure S, Chauvet N, de Santa Barbara P. PROX1 is a specific and dynamic marker of sacral neural crest cells in the chicken intestine. J Comp Neurol. 2020;528:879-889 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:1000; loading ...; fig 2o	Yu S, He J. Stochastic cell-cycle entry and cell-state-dependent fate outputs of injury-reactivated tectal radial glia in zebrafish. elife. 2019;8: pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200; loading ...; fig 4s1b	Kaczmarek Hájek K, Zhang J, Kopp R, Grosche A, Rissiek B, Saul A, et al. Re-evaluation of neuronal P2X7 expression using novel mouse models and a P2X7-specific nanobody. elife. 2018;7: pubmed publisher
immunohistochemistry - frozen section; mouse; 1:400; loading ...; fig s4d	Lasrado R, Boesmans W, Kleinjung J, Pin C, Bell D, Bhaw L, et al. Lineage-dependent spatial and functional organization of the mammalian enteric nervous system. Science. 2017;356:722-726 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:500; loading ...; tbl 2	Solek C, Feng S, Perin S, Weinschutz Mendes H, Ekker M. Lineage tracing of dlx1a/2a and dlx5a/6a expressing cells in the developing zebrafish brain. Dev Biol. 2017;427:131-147 pubmed publisher
immunohistochemistry; mouse; 1 ug/ml; loading ...; fig 5a western blot; mouse; 1 ug/ml; loading ...; fig 1c	Nogueira L, Costa D, Gomes A, Martins C, Silva A, Coelho Aguiar J, et al. The involvement of mast cells in the irinotecan-induced enteric neurons loss and reactive gliosis. J Neuroinflammation. 2017;14:79 pubmed publisher
immunohistochemistry; chicken; 1:500; loading ...; fig 10d	Xavier A, Fontaine R, Bloch S, Affaticati P, Jenett A, Demarque M, et al. Comparative analysis of monoaminergic cerebrospinal fluid-contacting cells in Osteichthyes (bony vertebrates). J Comp Neurol. 2017;525:2265-2283 pubmed publisher
immunohistochemistry; mouse; 1:500; loading ...; fig 3a	Hao M, Capoccia E, Cirillo C, Boesmans W, Vanden Berghe P. Arundic Acid Prevents Developmental Upregulation of S100B Expression and Inhibits Enteric Glial Development. Front Cell Neurosci. 2017;11:42 pubmed publisher
immunohistochemistry - paraffin section; zebrafish ; 1:200; loading ...; fig 3h	Mayrhofer M, Gourain V, Reischl M, Affaticati P, Jenett A, Joly J, et al. A novel brain tumour model in zebrafish reveals the role of YAP activation in MAPK- and PI3K-induced malignant growth. Dis Model Mech. 2017;10:15-28 pubmed publisher
immunohistochemistry - paraffin section; chicken; 1:500; loading ...; fig 5a	Ware M, Hamdi Rozé H, Le Friec J, David V, Dupé V. Regulation of downstream neuronal genes by proneural transcription factors during initial neurogenesis in the vertebrate brain. Neural Dev. 2016;11:22 pubmed
immunocytochemistry; mouse; 1:400; fig s5a	Konstantinidou C, Taraviras S, Pachnis V. Geminin prevents DNA damage in vagal neural crest cells to ensure normal enteric neurogenesis. BMC Biol. 2016;14:94 pubmed
immunohistochemistry - paraffin section; mouse; 1:200; fig 6b	Martin Cano F, Caso Agundez M, Camello Almaraz C, Santos F, Espin M, Madrid J, et al. Octodon degus, a new model to study the agonist and plexus-induced response in the urinary bladder. J Physiol Biochem. 2017;73:77-87 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:50; fig 2	Neckel P, Mattheus U, Hirt B, Just L, Mack A. Large-scale tissue clearing (PACT): Technical evaluation and new perspectives in immunofluorescence, histology, and ultrastructure. Sci Rep. 2016;6:34331 pubmed publisher
immunohistochemistry; rat; 1:500; fig 1	Vicentini G, Fracaro L, de Souza S, Martins H, Guarnier F, Zanoni J. Experimental Cancer Cachexia Changes Neuron Numbers and Peptide Levels in the Intestine: Partial Protective Effects after Dietary Supplementation with L-Glutamine. PLoS ONE. 2016;11:e0162998 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:400; fig 1	Cheng X, Boza Serrano A, Turesson M, Deierborg T, Ekblad E, Voss U. Galectin-3 causes enteric neuronal loss in mice after left sided permanent middle cerebral artery occlusion, a model of stroke. Sci Rep. 2016;6:32893 pubmed publisher
immunocytochemistry; human; fig 1	Gill K, Hung S, Sharov A, Lo C, Needham K, Lidgerwood G, et al. Enriched retinal ganglion cells derived from human embryonic stem cells. Sci Rep. 2016;6:30552 pubmed publisher
immunohistochemistry; rat; loading ...; fig 8	Wittmann G, Farkas E, Szilvásy Szabó A, Gereben B, Fekete C, Lechan R. Variable proopiomelanocortin expression in tanycytes of the adult rat hypothalamus and pituitary stalk. J Comp Neurol. 2017;525:411-441 pubmed publisher
immunohistochemistry; rat; 1:500; loading ...; fig 2a	Panizzon C, Zanoni J, Hermes Uliana C, Trevizan A, Sehaber C, Pereira R, et al. Desired and side effects of the supplementation with l-glutamine and l-glutathione in enteric glia of diabetic rats. Acta Histochem. 2016;118:625-631 pubmed publisher
immunohistochemistry; mouse; 1:50; fig 2	Senzacqua M, Severi I, Perugini J, Acciarini S, Cinti S, Giordano A. Action of Administered Ciliary Neurotrophic Factor on the Mouse Dorsal Vagal Complex. Front Neurosci. 2016;10:289 pubmed publisher
immunohistochemistry - frozen section; chicken; 1:400; fig s7	Peretz Y, Eren N, Kohl A, Hen G, Yaniv K, Weisinger K, et al. A new role of hindbrain boundaries as pools of neural stem/progenitor cells regulated by Sox2. BMC Biol. 2016;14:57 pubmed publisher
immunohistochemistry; zebrafish ; 1:20; loading ...; fig 2g	Cacialli P, Gueguen M, Coumailleau P, D angelo L, Kah O, Lucini C, et al. BDNF Expression in Larval and Adult Zebrafish Brain: Distribution and Cell Identification. PLoS ONE. 2016;11:e0158057 pubmed publisher
immunohistochemistry - paraffin section; zebrafish ; 1:200; fig 3	He S, Mansour M, Zimmerman M, Ki D, Layden H, Akahane K, et al. Synergy between loss of NF1 and overexpression of MYCN in neuroblastoma is mediated by the GAP-related domain. elife. 2016;5: pubmed publisher
immunocytochemistry; human; fig 1	Rolland M, Li X, Sellier Y, Martin H, Pérez Berezo T, Rauwel B, et al. PPARγ Is Activated during Congenital Cytomegalovirus Infection and Inhibits Neuronogenesis from Human Neural Stem Cells. PLoS Pathog. 2016;12:e1005547 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200; fig s3b	Nagao M, Ogata T, Sawada Y, Gotoh Y. Zbtb20 promotes astrocytogenesis during neocortical development. Nat Commun. 2016;7:11102 pubmed publisher
immunohistochemistry - frozen section; rat; 1:500; fig 5	Zséli G, Vida B, Martinez A, Lechan R, Khan A, Fekete C. Elucidation of the anatomy of a satiety network: Focus on connectivity of the parabrachial nucleus in the adult rat. J Comp Neurol. 2016;524:2803-27 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:50; fig 2	Chen T, Yu Y, Hu C, Schachner M. L1.2, the zebrafish paralog of L1.1 and ortholog of the mammalian cell adhesion molecule L1 contributes to spinal cord regeneration in adult zebrafish. Restor Neurol Neurosci. 2016;34:325-35 pubmed publisher
immunohistochemistry; chicken; 1:600; fig 2	Klafke R, Prem Anand A, Wurst W, Prakash N, Wizenmann A. Differences in the spatiotemporal expression and epistatic gene regulation of the mesodiencephalic dopaminergic precursor marker PITX3 during chicken and mouse development. Development. 2016;143:691-702 pubmed publisher
immunohistochemistry; zebrafish ; 1:50-1:500; tbl 1	Uyttebroek L, Shepherd I, Vanden Berghe P, Hubens G, Timmermans J, van Nassauw L. The zebrafish mutant lessen: an experimental model for congenital enteric neuropathies. Neurogastroenterol Motil. 2016;28:345-57 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; loading ...; fig s10a	Ulrich F, Carretero Ortega J, Menendez J, Narvaez C, Sun B, Lancaster E, et al. Reck enables cerebrovascular development by promoting canonical Wnt signaling. Development. 2016;143:147-59 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 5 ug/ml; fig 4	Veldman M, Rios Galdamez Y, Lu X, Gu X, Qin W, Li S, et al. The N17 domain mitigates nuclear toxicity in a novel zebrafish Huntington's disease model. Mol Neurodegener. 2015;10:67 pubmed publisher
immunohistochemistry; rat; 1:50; fig 1,b,e	Li S, Fei G, Fang X, Yang X, Sun X, Qian J, et al. Changes in Enteric Neurons of Small Intestine in a Rat Model of Irritable Bowel Syndrome with Diarrhea. J Neurogastroenterol Motil. 2016;22:310-20 pubmed publisher
immunohistochemistry; zebrafish ; 1:50; fig 1	Hui S, Nag T, Ghosh S. Characterization of Proliferating Neural Progenitors after Spinal Cord Injury in Adult Zebrafish. PLoS ONE. 2015;10:e0143595 pubmed publisher
immunohistochemistry; rat; fig 7	Fornai M, Pellegrini C, Antonioli L, Segnani C, Ippolito C, Barocelli E, et al. Enteric Dysfunctions in Experimental Parkinson's Disease: Alterations of Excitatory Cholinergic Neurotransmission Regulating Colonic Motility in Rats. J Pharmacol Exp Ther. 2016;356:434-44 pubmed publisher
immunohistochemistry - paraffin section; zebrafish ; 1:100; fig 2	Bettini S, Lazzari M, Ferrando S, Gallus L, Franceschini V. Histopathological analysis of the olfactory epithelium of zebrafish (Danio rerio) exposed to sublethal doses of urea. J Anat. 2016;228:59-69 pubmed publisher
immunocytochemistry; human; 1:500; fig 3d	Small K, DeLuca A, Whitmore S, Rosenberg T, Silva Garcia R, Udar N, et al. North Carolina Macular Dystrophy Is Caused by Dysregulation of the Retinal Transcription Factor PRDM13. Ophthalmology. 2016;123:9-18 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:5000; fig 2	Podlasz P, Jakimiuk A, Chmielewska Krzesinska M, Kasica N, Nowik N, Kaleczyc J. Galanin regulates blood glucose level in the zebrafish: a morphological and functional study. Histochem Cell Biol. 2016;145:105-17 pubmed publisher
immunocytochemistry; rat; 1:400	Sand E, Voss U, Ohlsson B, Ekblad E. Luteinizing hormone receptors are expressed in rat myenteric neurons and mediate neuronal loss. Auton Neurosci. 2015;193:104-7 pubmed publisher
immunohistochemistry; Xenopus laevis	Luehders K, Sasai N, Davaapil H, Kurosawa Yoshida M, Hiura H, Brah T, et al. The small leucine-rich repeat secreted protein Asporin induces eyes in Xenopus embryos through the IGF signalling pathway. Development. 2015;142:3351-61 pubmed publisher
immunocytochemistry; zebrafish ; 1:100 immunohistochemistry; zebrafish ; 1:100	Stil A, Drapeau P. Neuronal labeling patterns in the spinal cord of adult transgenic Zebrafish. Dev Neurobiol. 2016;76:642-60 pubmed publisher
immunohistochemistry; rat	Wittmann G, MohÃ¡csik P, Balkhi M, Gereben B, Lechan R. Endotoxin-induced inflammation down-regulates L-type amino acid transporter 1 (LAT1) expression at the blood-brain barrier of male rats and mice. Fluids Barriers CNS. 2015;12:21 pubmed publisher
immunohistochemistry; chicken; fig 2a	MÃguez D. A Branching Process to Characterize the Dynamics of Stem Cell Differentiation. Sci Rep. 2015;5:13265 pubmed publisher
immunohistochemistry; pigs ; 1:1000	Bulc M, Gonkowski S, CaÅ‚ka J. Expression of Cocaine and Amphetamine Regulated Transcript (CART) in the Porcine Intramural Neurons of Stomach in the Course of Experimentally Induced Diabetes Mellitus. J Mol Neurosci. 2015;57:376-85 pubmed publisher
immunohistochemistry; pigs ; 1:200; fig 4	Petto C, GÃ¤bel G, Pfannkuche H. Architecture and Chemical Coding of the Inner and Outer Submucous Plexus in the Colon of Piglets. PLoS ONE. 2015;10:e0133350 pubmed publisher
immunocytochemistry; zebrafish ; 1:100	CortÃ©s Campos C, Letelier J, Ceriani R, Whitlock K. Zebrafish adult-derived hypothalamic neurospheres generate gonadotropin-releasing hormone (GnRH) neurons. Biol Open. 2015;4:1077-86 pubmed publisher
immunohistochemistry; chicken; 1:500	Smith A, Fleenor S, Begbie J. Changes in gene expression and cell shape characterise stages of epibranchial placode-derived neuron maturation in the chick. J Anat. 2015;227:89-102 pubmed publisher
immunohistochemistry; Japanese rice fish; fig s1	Yasuda T, Oda S, Hibi Y, Satoh S, Nagata K, Hirakawa K, et al. Embryonic Medaka Model of Microglia in the Developing CNS Allowing In Vivo Analysis of Their Spatiotemporal Recruitment in Response to Irradiation. PLoS ONE. 2015;10:e0127325 pubmed publisher
immunohistochemistry; human; 1:400; fig 1	Hoeber J, Trolle C, König N, Du Z, Gallo A, Hermans E, et al. Human Embryonic Stem Cell-Derived Progenitors Assist Functional Sensory Axon Regeneration after Dorsal Root Avulsion Injury. Sci Rep. 2015;5:10666 pubmed publisher
immunohistochemistry - free floating section; chicken; 1:200	Honarmand M, Thompson C, Schatton A, Kipper S, Scharff C. Early developmental stress negatively affects neuronal recruitment to avian song system nucleus HVC. Dev Neurobiol. 2016;76:107-18 pubmed publisher
immunohistochemistry; rat; 0.4 ug/ml	Fujikawa Y, Tominaga K, Tanaka F, Tanigawa T, Watanabe T, Fujiwara Y, et al. Enteric glial cells are associated with stress-induced colonic hyper-contraction in maternally separated rats. Neurogastroenterol Motil. 2015;27:1010-23 pubmed publisher
immunocytochemistry; zebrafish	Mao H, Pilaz L, McMahon J, Golzio C, Wu D, Shi L, et al. Rbm8a haploinsufficiency disrupts embryonic cortical development resulting in microcephaly. J Neurosci. 2015;35:7003-18 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Migliavacca E, Golzio C, Männik K, Blumenthal I, Oh E, Harewood L, et al. A Potential Contributory Role for Ciliary Dysfunction in the 16p11.2 600 kb BP4-BP5 Pathology. Am J Hum Genet. 2015;96:784-96 pubmed publisher
immunohistochemistry - free floating section; rat; 1:200	Abdi A, Mallet N, Mohamed F, Sharott A, Dodson P, Nakamura K, et al. Prototypic and arkypallidal neurons in the dopamine-intact external globus pallidus. J Neurosci. 2015;35:6667-88 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Briona L, Poulain F, Mosimann C, Dorsky R. Wnt/ÃŸ-catenin signaling is required for radial glial neurogenesis following spinal cord injury. Dev Biol. 2015;403:15-21 pubmed publisher
immunohistochemistry - paraffin section; human; 1:800	SÃ¡nchez FarÃas N, Candal E. Doublecortin is widely expressed in the developing and adult retina of sharks. Exp Eye Res. 2015;134:90-100 pubmed publisher
immunohistochemistry; zebrafish ; 1:100	Jiang Q, Arnold S, Heanue T, Kilambi K, Doan B, Kapoor A, et al. Functional loss of semaphorin 3C and/or semaphorin 3D and their epistatic interaction with ret are critical to Hirschsprung disease liability. Am J Hum Genet. 2015;96:581-96 pubmed publisher
immunohistochemistry; rat; 1:2000; fig 4	Nakadate K. Developmental changes in the flotillin-1 expression pattern of the rat visual cortex. Neuroscience. 2015;292:101-11 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200	Stenkamp Strahm C, Nyavor Y, Kappmeyer A, Horton S, Gericke M, Balemba O. Prolonged high fat diet ingestion, obesity, and type 2 diabetes symptoms correlate with phenotypic plasticity in myenteric neurons and nerve damage in the mouse duodenum. Cell Tissue Res. 2015;361:411-26 pubmed publisher
immunohistochemistry; zebrafish ; 1:1000	Cheng W, Tang C, Gui H, So M, Lui V, Tam P, et al. Depletion of the IKBKAP ortholog in zebrafish leads to hirschsprung disease-like phenotype. World J Gastroenterol. 2015;21:2040-6 pubmed publisher
immunohistochemistry; zebrafish ; 1:200	Stoyek M, Croll R, Smith F. Intrinsic and extrinsic innervation of the heart in zebrafish (Danio rerio). J Comp Neurol. 2015;523:1683-700 pubmed publisher
immunohistochemistry; zebrafish	Mundell N, BEIER K, Pan Y, Lapan S, Göz Aytürk D, Berezovskii V, et al. Vesicular stomatitis virus enables gene transfer and transsynaptic tracing in a wide range of organisms. J Comp Neurol. 2015;523:1639-63 pubmed publisher
immunohistochemistry; rat; fig 2	Benskey M, Kuhn N, Galligan J, García J, Boye S, Hauswirth W, et al. Targeted gene delivery to the enteric nervous system using AAV: a comparison across serotypes and capsid mutants. Mol Ther. 2015;23:488-500 pubmed publisher
immunohistochemistry; domestic horse; 1:400	Chiocchetti R, Giancola F, Mazzoni M, Sorteni C, Romagnoli N, Pietra M. Excitatory and inhibitory enteric innervation of horse lower esophageal sphincter. Histochem Cell Biol. 2015;143:625-35 pubmed publisher
immunohistochemistry; rat; 1:200; fig 1	Erdos B, Backes I, McCowan M, Hayward L, Scheuer D. Brain-derived neurotrophic factor modulates angiotensin signaling in the hypothalamus to increase blood pressure in rats. Am J Physiol Heart Circ Physiol. 2015;308:H612-22 pubmed publisher
immunohistochemistry; chicken; 1:500	RatiÃ© L, Ware M, Jagline H, David V, DupÃ© V. Dynamic expression of Notch-dependent neurogenic markers in the chick embryonic nervous system. Front Neuroanat. 2014;8:158 pubmed publisher
immunohistochemistry; rat; 1:250	Ippolito C, Segnani C, Errede M, Virgintino D, Colucci R, Fornai M, et al. An integrated assessment of histopathological changes of the enteric neuromuscular compartment in experimental colitis. J Cell Mol Med. 2015;19:485-500 pubmed publisher
immunohistochemistry - paraffin section; human	Hofmeister W, Nilsson D, Topa A, Anderlid B, Darki F, Matsson H, et al. CTNND2-a candidate gene for reading problems and mild intellectual disability. J Med Genet. 2015;52:111-22 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:100; fig s3	MacÃas D, FernÃ¡ndez AgÃ¼era M, Bonilla Henao V, LÃ³pez Barneo J. Deletion of the von Hippel-Lindau gene causes sympathoadrenal cell death and impairs chemoreceptor-mediated adaptation to hypoxia. EMBO Mol Med. 2014;6:1577-92 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:25	Gombash S, Cowley C, Fitzgerald J, Hall J, Mueller C, CHRISTOFI F, et al. Intravenous AAV9 efficiently transduces myenteric neurons in neonate and juvenile mice. Front Mol Neurosci. 2014;7:81 pubmed publisher
immunohistochemistry; mouse; 1:1000	Asik K, Rao J, Kirn J. A method for exploring adult neurogenesis in the songbird brain. Cold Spring Harb Protoc. 2014;2014:1259-66 pubmed publisher
immunocytochemistry; rat; 1:10; fig S2	Scholze A, Foo L, Mulinyawe S, Barres B. BMP signaling in astrocytes downregulates EGFR to modulate survival and maturation. PLoS ONE. 2014;9:e110668 pubmed publisher
immunohistochemistry; chicken; 1:500; fig 6	Kubikova L, Bosíková E, Cviková M, Lukacova K, Scharff C, Jarvis E. Basal ganglia function, stuttering, sequencing, and repair in adult songbirds. Sci Rep. 2014;4:6590 pubmed publisher
immunohistochemistry; zebrafish ; 1:1000	Sugathan A, Biagioli M, Golzio C, Erdin S, Blumenthal I, Manavalan P, et al. CHD8 regulates neurodevelopmental pathways associated with autism spectrum disorder in neural progenitors. Proc Natl Acad Sci U S A. 2014;111:E4468-77 pubmed publisher
immunohistochemistry; human; 1:500	Carbone S, Jovanovska V, Nurgali K, Brookes S. Human enteric neurons: morphological, electrophysiological, and neurochemical identification. Neurogastroenterol Motil. 2014;26:1812-6 pubmed publisher
immunocytochemistry; rat; 1:100	Teh D, Ishizuka T, Yawo H. Regulation of later neurogenic stages of adult-derived neural stem/progenitor cells by L-type Ca2+ channels. Dev Growth Differ. 2014;56:583-94 pubmed publisher
immunohistochemistry - frozen section; mouse; 1 ug/ml	Bless E, Reddy T, Acharya K, Beltz B, Tetel M. Oestradiol and diet modulate energy homeostasis and hypothalamic neurogenesis in the adult female mouse. J Neuroendocrinol. 2014;26:805-16 pubmed publisher
immunohistochemistry - paraffin section; human	Xiao L, Kumazawa Y, Okamura H. Cell death, cavitation and spontaneous multi-differentiation of dental pulp stem cells-derived spheroids in vitro: a journey to survival and organogenesis. Biol Cell. 2014;106:405-19 pubmed publisher
immunohistochemistry; Japanese rice fish; 1:100	Sinn R, Peravali R, Heermann S, Wittbrodt J. Differential responsiveness of distinct retinal domains to Atoh7. Mech Dev. 2014;133:218-29 pubmed publisher
immunocytochemistry; Japanese rice fish; 1:200	Centanin L, Ander J, Hoeckendorf B, Lust K, Kellner T, Kraemer I, et al. Exclusive multipotency and preferential asymmetric divisions in post-embryonic neural stem cells of the fish retina. Development. 2014;141:3472-82 pubmed publisher
immunocytochemistry; human; 1:300	Rharass T, Lemcke H, Lantow M, Kuznetsov S, Weiss D, Panàkovà D. Ca2+-mediated mitochondrial reactive oxygen species metabolism augments Wnt/?-catenin pathway activation to facilitate cell differentiation. J Biol Chem. 2014;289:27937-51 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; fig 3	Makantasi P, Dermon C. Estradiol treatment decreases cell proliferation in the neurogenic zones of adult female zebrafish (Danio rerio) brain. Neuroscience. 2014;277:306-20 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Bai Q, Parris R, Burton E. Different mechanisms regulate expression of zebrafish myelin protein zero (P0) in myelinating oligodendrocytes and its induction following axonal injury. J Biol Chem. 2014;289:24114-28 pubmed publisher
immunocytochemistry; mouse; 1:750	Torrado E, Gomes C, Santos G, Fernandes A, Brites D, Falcão A. Directing mouse embryonic neurosphere differentiation toward an enriched neuronal population. Int J Dev Neurosci. 2014;37:94-9 pubmed publisher
immunocytochemistry; zebrafish ; 1:500	Bernier R, Golzio C, Xiong B, Stessman H, Coe B, Penn O, et al. Disruptive CHD8 mutations define a subtype of autism early in development. Cell. 2014;158:263-276 pubmed publisher
immunocytochemistry; zebrafish ; 20 ug/ml	Shi Y, Zhang Y, Zhao F, Ruan H, Huang H, Luo L, et al. Acetylcholine serves as a derepressor in Loperamide-induced Opioid-Induced Bowel Dysfunction (OIBD) in zebrafish. Sci Rep. 2014;4:5602 pubmed publisher
immunohistochemistry; chicken; 1:500; fig 1	Herrera A, Saade M, Menendez A, Marti E, Pons S. Sustained Wnt/?-catenin signalling causes neuroepithelial aberrations through the accumulation of aPKC at the apical pole. Nat Commun. 2014;5:4168 pubmed publisher
immunohistochemistry; human; 1:2000	Milione M, Gasparini P, Sozzi G, Mazzaferro V, Ferrari A, Casali P, et al. Ewing sarcoma of the small bowel: a study of seven cases, including one with the uncommonly reported EWSR1-FEV translocation. Histopathology. 2014;64:1014-26 pubmed publisher
immunohistochemistry; mouse; 1:500; fig s7	Tsurusaki Y, Koshimizu E, Ohashi H, Phadke S, Kou I, Shiina M, et al. De novo SOX11 mutations cause Coffin-Siris syndrome. Nat Commun. 2014;5:4011 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:500	Briona L, Dorsky R. Radial glial progenitors repair the zebrafish spinal cord following transection. Exp Neurol. 2014;256:81-92 pubmed publisher
immunocytochemistry; chicken	Lu Y, West F, Jordan B, Jordan E, West R, Yu P, et al. Induced pluripotency in chicken embryonic fibroblast results in a germ cell fate. Stem Cells Dev. 2014;23:1755-64 pubmed publisher
immunocytochemistry; human	Petazzi P, Akizu N, Garcia A, Estarás C, Martinez de Paz A, Rodríguez Paredes M, et al. An increase in MECP2 dosage impairs neural tube formation. Neurobiol Dis. 2014;67:49-56 pubmed publisher
immunocytochemistry; human	Zhang X, Ling J, Barcia G, Jing L, Wu J, Barry B, et al. Mutations in QARS, encoding glutaminyl-tRNA synthetase, cause progressive microcephaly, cerebral-cerebellar atrophy, and intractable seizures. Am J Hum Genet. 2014;94:547-58 pubmed publisher
immunohistochemistry; domestic horse; 1:100	Zannoni A, Bombardi C, Dondi F, Morini M, Forni M, Chiocchetti R, et al. Proteinase-activated receptor 2 expression in the intestinal tract of the horse. Res Vet Sci. 2014;96:464-71 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:100	Hasegawa Y, Yoshida D, Nakamura Y, Sakakibara S. Spatiotemporal distribution of SUMOylation components during mouse brain development. J Comp Neurol. 2014;522:3020-36 pubmed publisher
immunocytochemistry; human; 1:50	Wyatt L, Filbin M, Keirstead H. PTEN inhibition enhances neurite outgrowth in human embryonic stem cell-derived neuronal progenitor cells. J Comp Neurol. 2014;522:2741-55 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:1000	Orts Del Immagine A, Kastner A, Tillement V, Tardivel C, Trouslard J, Wanaverbecq N. Morphology, distribution and phenotype of polycystin kidney disease 2-like 1-positive cerebrospinal fluid contacting neurons in the brainstem of adult mice. PLoS ONE. 2014;9:e87748 pubmed publisher
immunohistochemistry - frozen section; Apteronotus leptorhynchus	Zupanc G, Ilieş I, Sîrbulescu R, Zupanc M. Large-scale identification of proteins involved in the development of a sexually dimorphic behavior. J Neurophysiol. 2014;111:1646-54 pubmed publisher
immunohistochemistry - paraffin section; human; 1:160; fig 4	Bodi I, Curran O, Selway R, Elwes R, Burrone J, Laxton R, et al. Two cases of multinodular and vacuolating neuronal tumour. Acta Neuropathol Commun. 2014;2:7 pubmed publisher
immunohistochemistry - frozen section; true eels; 1:400; fig 2, 3	Sorteni C, Clavenzani P, De Giorgio R, Portnoy O, Sirri R, Mordenti O, et al. Enteric neuroplasticity in seawater-adapted European eel (Anguilla anguilla). J Anat. 2014;224:180-91 pubmed publisher
immunohistochemistry - free floating section; mouse; 1:100	Severi I, Perugini J, Mondini E, Smorlesi A, Frontini A, Cinti S, et al. Opposite effects of a high-fat diet and calorie restriction on ciliary neurotrophic factor signaling in the mouse hypothalamus. Front Neurosci. 2013;7:263 pubmed publisher
immunocytochemistry; zebrafish ; 1:500; fig 3	Tapanes Castillo A, Shabazz F, Mboge M, Vajn K, Oudega M, Plunkett J. Characterization of a novel primary culture system of adult zebrafish brainstem cells. J Neurosci Methods. 2014;223:11-9 pubmed publisher
immunohistochemistry; Apteronotus leptorhynchus; fig 3	Traniello I, Sîrbulescu R, Ilieş I, Zupanc G. Age-related changes in stem cell dynamics, neurogenesis, apoptosis, and gliosis in the adult brain: a novel teleost fish model of negligible senescence. Dev Neurobiol. 2014;74:514-30 pubmed publisher
immunohistochemistry - frozen section; human; 1:200	Batailler M, Droguerre M, Baroncini M, Fontaine C, Prevot V, Migaud M. DCX-expressing cells in the vicinity of the hypothalamic neurogenic niche: a comparative study between mouse, sheep, and human tissues. J Comp Neurol. 2014;522:1966-85 pubmed publisher
immunohistochemistry; zebrafish ; fig 1	Lake J, Tusheva O, Graham B, Heuckeroth R. Hirschsprung-like disease is exacerbated by reduced de novo GMP synthesis. J Clin Invest. 2013;123:4875-87 pubmed
immunohistochemistry; mouse; 1:20	Robins S, Trudel E, Rotondi O, Liu X, Djogo T, Kryzskaya D, et al. Evidence for NG2-glia derived, adult-born functional neurons in the hypothalamus. PLoS ONE. 2013;8:e78236 pubmed publisher
immunohistochemistry - frozen section; chicken; fig 3	Lee R, Nagai H, Nakaya Y, Sheng G, Trainor P, Weston J, et al. Cell delamination in the mesencephalic neural fold and its implication for the origin of ectomesenchyme. Development. 2013;140:4890-902 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:1000; fig 3	Achim K, Peltopuro P, Lahti L, Tsai H, Zachariah A, Astrand M, et al. The role of Tal2 and Tal1 in the differentiation of midbrain GABAergic neuron precursors. Biol Open. 2013;2:990-7 pubmed publisher
immunohistochemistry - frozen section; pigs ; 1:800	Zacharko Siembida A, Kulik P, Szalak R, Lalak R, Arciszewski M. Co-expression patterns of cocaine- and amphetamine-regulated transcript (CART) with neuropeptides in dorsal root ganglia of the pig. Acta Histochem. 2014;116:390-8 pubmed publisher
immunohistochemistry; human; 1:500; fig 1	Miguez D, Gil Guiñón E, Pons S, Marti E. Smad2 and Smad3 cooperate and antagonize simultaneously in vertebrate neurogenesis. J Cell Sci. 2013;126:5335-43 pubmed publisher
immunohistochemistry; zebrafish ; 1:500; fig 5	Leigh N, Schupp M, Li K, Padmanabhan V, Gastonguay A, Wang L, et al. Mmp17b is essential for proper neural crest cell migration in vivo. PLoS ONE. 2013;8:e76484 pubmed publisher
immunohistochemistry - frozen section; pigs ; 1:800; fig 1, 2	Zacharko Siembida A, Piedra J, Arciszewski M. Changes in expression of calbindin 28 kDa in the small intestine of red kidney bean (Phaseolus vulgaris) lectin-treated suckling piglets. Pol J Vet Sci. 2013;16:201-9 pubmed
immunohistochemistry; bank vole; 1:150; tbl 1	Sadeghinezhad J, Sorteni C, Di Guardo G, D Agostino C, Agrimi U, Nonno R, et al. Neurochemistry of myenteric plexus neurons of bank vole (Myodes glareolus) ileum. Res Vet Sci. 2013;95:846-53 pubmed publisher
immunohistochemistry - frozen section; domestic horse; 1:200; fig 2	Bombardi C, Grandis A, Gardini A, Sorteni C, Clavenzani P, Chiocchetti R. Expression of ?2 adrenoceptors within enteric neurons of the horse ileum. Res Vet Sci. 2013;95:837-45 pubmed publisher
immunohistochemistry; mouse	Cagle M, Honig M. Parcellation of cerebellins 1, 2, and 4 among different subpopulations of dorsal horn neurons in mouse spinal cord. J Comp Neurol. 2014;522:479-97 pubmed publisher
immunohistochemistry; goldfish; 1:100; tbl 1	Newton C, Stoyek M, Croll R, Smith F. Regional innervation of the heart in the goldfish, Carassius auratus: a confocal microscopy study. J Comp Neurol. 2014;522:456-78 pubmed publisher
immunohistochemistry; smaller spotted dogfish; 1:100	Pose Méndez S, Candal E, Adrio F, Rodriguez Moldes I. Development of the cerebellar afferent system in the shark Scyliorhinus canicula: insights into the basal organization of precerebellar nuclei in gnathostomes. J Comp Neurol. 2014;522:131-68 pubmed publisher
immunohistochemistry - paraffin section; human; fig 7	Xiao L, Tsutsui T. Characterization of human dental pulp cells-derived spheroids in serum-free medium: stem cells in the core. J Cell Biochem. 2013;114:2624-36 pubmed publisher
immunohistochemistry - free floating section; zebrafish ; 1:500	Edelmann K, Glashauser L, Sprungala S, Hesl B, Fritschle M, Ninkovic J, et al. Increased radial glia quiescence, decreased reactivation upon injury and unaltered neuroblast behavior underlie decreased neurogenesis in the aging zebrafish telencephalon. J Comp Neurol. 2013;521:3099-115 pubmed publisher
immunocytochemistry; zebrafish ; 1 ug/ml; fig 8	Qi L, Wade J. Sexually dimorphic and developmentally regulated expression of tubulin-specific chaperone protein A in the LMAN of zebra finches. Neuroscience. 2013;247:182-90 pubmed publisher
immunohistochemistry; mouse; 1:200; fig 4	Stenkamp Strahm C, Patterson S, Boren J, Gericke M, Balemba O. High-fat diet and age-dependent effects on enteric glial cell populations of mouse small intestine. Auton Neurosci. 2013;177:199-210 pubmed publisher
immunocytochemistry; mouse; fig 2	Berenguer J, Herrera A, Vuolo L, Torroba B, Llorens F, Sumoy L, et al. MicroRNA 22 regulates cell cycle length in cerebellar granular neuron precursors. Mol Cell Biol. 2013;33:2706-17 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:200	Langlet F, Mullier A, Bouret S, Prevot V, Dehouck B. Tanycyte-like cells form a blood-cerebrospinal fluid barrier in the circumventricular organs of the mouse brain. J Comp Neurol. 2013;521:3389-405 pubmed publisher
immunohistochemistry; zebrafish ; 1:250; fig 5	Kaslin J, Kroehne V, Benato F, Argenton F, Brand M. Development and specification of cerebellar stem and progenitor cells in zebrafish: from embryo to adult. Neural Dev. 2013;8:9 pubmed publisher
immunohistochemistry; zebrafish ; fig 3	Gerety S, Breau M, Sasai N, Xu Q, Briscoe J, Wilkinson D. An inducible transgene expression system for zebrafish and chick. Development. 2013;140:2235-43 pubmed publisher
immunohistochemistry; zebrafish ; fig 3	Emborg M, Zhang Z, Joers V, Brunner K, Bondarenko V, Ohshima S, et al. Intracerebral transplantation of differentiated human embryonic stem cells to hemiparkinsonian monkeys. Cell Transplant. 2013;22:831-8 pubmed publisher
immunohistochemistry; human; 1:200; fig 4 immunohistochemistry; pigs ; 1:200; fig 4	Wang G, Wang X, Zou F, Qu M, Liu S, Fei G, et al. Mast cell expression of the serotonin1A receptor in guinea pig and human intestine. Am J Physiol Gastrointest Liver Physiol. 2013;304:G855-63 pubmed publisher
immunocytochemistry; mouse; 1:250; fig 1	Gamage P, Ranson R, Patel B, Yeoman M, Saffrey M. Myenteric neuron numbers are maintained in aging mouse distal colon. Neurogastroenterol Motil. 2013;25:e495-e505 pubmed
immunohistochemistry - frozen section; pigs ; 1:800	Zacharko Siembida A, Arciszewski M. Immunoreactivity to cocaine- and amphetamine-regulated transcript in the enteric nervous system of the pig and wild boar stomach. Anat Histol Embryol. 2014;43:48-55 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200; fig 1	Yoshikawa M, Murakami Y, Senzaki K, Masuda T, Ozaki S, Ito Y, et al. Coexpression of Runx1 and Runx3 in mechanoreceptive dorsal root ganglion neurons. Dev Neurobiol. 2013;73:469-79 pubmed publisher
immunohistochemistry; zebrafish ; 1:20	Chung A, Kim S, Kim E, Kim D, Jeong I, Cha Y, et al. Indian hedgehog B function is required for the specification of oligodendrocyte progenitor cells in the zebrafish CNS. J Neurosci. 2013;33:1728-33 pubmed publisher
immunohistochemistry; zebrafish ; 1:1000; fig 6	Beunders G, Voorhoeve E, Golzio C, Pardo L, Rosenfeld J, Talkowski M, et al. Exonic deletions in AUTS2 cause a syndromic form of intellectual disability and suggest a critical role for the C terminus. Am J Hum Genet. 2013;92:210-20 pubmed publisher
immunohistochemistry; zebrafish ; 1:500; fig 3	Hsieh F, Ma T, Shih H, Lin S, Huang C, Wang H, et al. Dner inhibits neural progenitor proliferation and induces neuronal and glial differentiation in zebrafish. Dev Biol. 2013;375:1-12 pubmed publisher
immunohistochemistry; zebrafish ; 1:10000; fig 2	Simonson L, Ganz J, Melancon E, Eisen J. Characterization of enteric neurons in wild-type and mutant zebrafish using semi-automated cell counting and co-expression analysis. Zebrafish. 2013;10:147-53 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Bergeron S, Hannan M, Codore H, Fero K, Li G, Moak Z, et al. Brain selective transgene expression in zebrafish using an NRSE derived motif. Front Neural Circuits. 2012;6:110 pubmed publisher
immunohistochemistry - paraffin section; smaller spotted dogfish; 1:100	Quintana Urzainqui I, Rodriguez Moldes I, Candal E. Developmental, tract-tracing and immunohistochemical study of the peripheral olfactory system in a basal vertebrate: insights on Pax6 neurons migrating along the olfactory nerve. Brain Struct Funct. 2014;219:85-104 pubmed publisher
western blot; zebrafish ; 1:100; fig 3	Vatine G, Zada D, Lerer Goldshtein T, Tovin A, Malkinson G, Yaniv K, et al. Zebrafish as a model for monocarboxyl transporter 8-deficiency. J Biol Chem. 2013;288:169-80 pubmed publisher
immunohistochemistry; Apteronotus leptorhynchus; fig 3	Allen A, Smith G. Spinal transection induces widespread proliferation of cells along the length of the spinal cord in a weakly electric fish. Brain Behav Evol. 2012;80:269-80 pubmed publisher
immunohistochemistry; zebrafish ; 1:10,000; fig s2	Seredick S, Van Ryswyk L, Hutchinson S, Eisen J. Zebrafish Mnx proteins specify one motoneuron subtype and suppress acquisition of interneuron characteristics. Neural Dev. 2012;7:35 pubmed publisher
immunohistochemistry; human; tbl 2	Ampatzis K, Makantasi P, Dermon C. Cell proliferation pattern in adult zebrafish forebrain is sexually dimorphic. Neuroscience. 2012;226:367-81 pubmed publisher
immunohistochemistry; mouse; 1:800; fig 6	Virolainen S, Achim K, Peltopuro P, Salminen M, Partanen J. Transcriptional regulatory mechanisms underlying the GABAergic neuron fate in different diencephalic prosomeres. Development. 2012;139:3795-805 pubmed
immunohistochemistry; Caucasian squirrel; 1:150	Sadeghinezhad J, Tootian Z, Latorre R, Sorteni C, Chiocchetti R. Intrinsic innervation of the Persian squirrel (Sciurus anomalus) ileum. Anat Histol Embryol. 2013;42:201-12 pubmed publisher
immunocytochemistry; human; 1:40	Majumder A, Banerjee S, Harrill J, Machacek D, Mohamad O, Bacanamwo M, et al. Neurotrophic effects of leukemia inhibitory factor on neural cells derived from human embryonic stem cells. Stem Cells. 2012;30:2387-99 pubmed publisher
immunohistochemistry; zebrafish ; 1:1000	Chen Y, Sundvik M, Rozov S, Priyadarshini M, Panula P. MANF regulates dopaminergic neuron development in larval zebrafish. Dev Biol. 2012;370:237-49 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:500; fig 3	Won Y, Ono F, Ikeda S. Characterization of Na+ and Ca2+ channels in zebrafish dorsal root ganglion neurons. PLoS ONE. 2012;7:e42602 pubmed publisher
immunohistochemistry; tiger puffer	Kawaguchi M, Sugahara Y, Watanabe T, Irie K, Ishida M, Kurokawa D, et al. Nervous system disruption and concomitant behavioral abnormality in early hatched pufferfish larvae exposed to heavy oil. Environ Sci Pollut Res Int. 2011;19:2488-97 pubmed publisher
immunohistochemistry - frozen section; pigs ; 1:400; fig 1	Zacharko Siembida A, Valverde Piedra J, Szymańczyk S, Arciszewski M. Immunolocalization of NOS, VIP, galanin and SP in the small intestine of suckling pigs treated with red kidney bean (Phaseolus vulgaris) lectin. Acta Histochem. 2013;115:219-25 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; fig 7	Shin J, Padmanabhan A, de Groh E, Lee J, Haidar S, Dahlberg S, et al. Zebrafish neurofibromatosis type 1 genes have redundant functions in tumorigenesis and embryonic development. Dis Model Mech. 2012;5:881-94 pubmed publisher
immunohistochemistry; zebrafish ; 1:200; fig 5	Terriente J, Gerety S, Watanabe Asaka T, Gonzalez Quevedo R, Wilkinson D. Signalling from hindbrain boundaries regulates neuronal clustering that patterns neurogenesis. Development. 2012;139:2978-87 pubmed publisher
immunohistochemistry; zebrafish ; 1:20; fig 1	Kim S, Kim J, Chung A, Kim H, Kim Y, Kim M, et al. Antagonistic regulation of PAF1C and p-TEFb is required for oligodendrocyte differentiation. J Neurosci. 2012;32:8201-7 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:1000	Shimada I, LeComte M, Granger J, Quinlan N, Spees J. Self-renewal and differentiation of reactive astrocyte-derived neural stem/progenitor cells isolated from the cortical peri-infarct area after stroke. J Neurosci. 2012;32:7926-40 pubmed publisher
immunohistochemistry; Japanese quail; 1:1000; tbl 1	Bardet S, Mouriec K, Balthazart J. Birth of neural progenitors during the embryonic period of sexual differentiation in the Japanese quail brain. J Comp Neurol. 2012;520:4226-53 pubmed publisher
immunocytochemistry; rat; fig 1	Colucci M, Cervio M, Faniglione M, De Angelis S, Pajoro M, Levandis G, et al. Intestinal dysmotility and enteric neurochemical changes in a Parkinson's disease rat model. Auton Neurosci. 2012;169:77-86 pubmed publisher
immunohistochemistry; zebrafish	Golzio C, Willer J, Talkowski M, Oh E, Taniguchi Y, Jacquemont S, et al. KCTD13 is a major driver of mirrored neuroanatomical phenotypes of the 16p11.2 copy number variant. Nature. 2012;485:363-7 pubmed publisher
immunocytochemistry; zebrafish ; 1:1000; tbl 1	Podlasz P, Sallinen V, Chen Y, Kudo H, Fedorowska N, Panula P. Galanin gene expression and effects of its knock-down on the development of the nervous system in larval zebrafish. J Comp Neurol. 2012;520:3846-62 pubmed publisher
immunohistochemistry; Hawaiian perch; 1:20; fig 10	Teles M, Sîrbulescu R, Wellbrock U, Oliveira R, Zupanc G. Adult neurogenesis in the brain of the Mozambique tilapia, Oreochromis mossambicus. J Comp Physiol A Neuroethol Sens Neural Behav Physiol. 2012;198:427-49 pubmed publisher
immunocytochemistry; rat; 1:400; fig 1	Voss U, Sand E, Hellstrom P, Ekblad E. Glucagon-like peptides 1 and 2 and vasoactive intestinal peptide are neuroprotective on cultured and mast cell co-cultured rat myenteric neurons. BMC Gastroenterol. 2012;12:30 pubmed publisher
immunohistochemistry - free floating section; rat; 1:5000; fig 5	Phillips R, Powley T. Macrophages associated with the intrinsic and extrinsic autonomic innervation of the rat gastrointestinal tract. Auton Neurosci. 2012;169:12-27 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:400	Lindsey B, Darabie A, Tropepe V. The cellular composition of neurogenic periventricular zones in the adult zebrafish forebrain. J Comp Neurol. 2012;520:2275-316 pubmed publisher
immunohistochemistry; zebra finch; 1:25	Scott B, Gardner T, Ji N, Fee M, Lois C. Wandering neuronal migration in the postnatal vertebrate forebrain. J Neurosci. 2012;32:1436-46 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; fig 3	Zannino D, SAGERSTROM C, Appel B. olig2-Expressing hindbrain cells are required for migrating facial motor neurons. Dev Dyn. 2012;241:315-26 pubmed publisher
immunohistochemistry - paraffin section; Gallot's lizard; 1:500	Romero Alemán M, Monzon Mayor M, Santos E, Lang D, Yanes C. Neuronal and glial differentiation during lizard (Gallotia galloti) visual system ontogeny. J Comp Neurol. 2012;520:2163-84 pubmed publisher
immunohistochemistry; zebrafish	Bräutigam L, Schütte L, Godoy J, Prozorovski T, Gellert M, Hauptmann G, et al. Vertebrate-specific glutaredoxin is essential for brain development. Proc Natl Acad Sci U S A. 2011;108:20532-7 pubmed publisher
immunohistochemistry; rat; 10 ug/ml	Lin Z, Liu Y, Zheng Q, Hu Q. Increased proportion of nitric oxide synthase immunoreactive neurons in rat ileal myenteric ganglia after severe acute pancreatitis. BMC Gastroenterol. 2011;11:127 pubmed publisher
immunohistochemistry; zebrafish ; 1:600; fig 7	Baumgart E, Barbosa J, Bally Cuif L, Gotz M, Ninkovic J. Stab wound injury of the zebrafish telencephalon: a model for comparative analysis of reactive gliosis. Glia. 2012;60:343-57 pubmed publisher
western blot; rat; fig 4	Sato H, Arawaka S, Hara S, Fukushima S, Koga K, Koyama S, et al. Authentically phosphorylated ?-synuclein at Ser129 accelerates neurodegeneration in a rat model of familial Parkinson's disease. J Neurosci. 2011;31:16884-94 pubmed publisher
immunohistochemistry; zebrafish ; 1:300; fig 4	Kroehne V, Freudenreich D, Hans S, Kaslin J, Brand M. Regeneration of the adult zebrafish brain from neurogenic radial glia-type progenitors. Development. 2011;138:4831-41 pubmed publisher
immunohistochemistry; zebrafish ; fig 3	Stockinger P, Maître J, Heisenberg C. Defective neuroepithelial cell cohesion affects tangential branchiomotor neuron migration in the zebrafish neural tube. Development. 2011;138:4673-83 pubmed publisher
immunohistochemistry; mouse; fig 2	CHALAZONITIS A, Tang A, Shang Y, Pham T, Hsieh I, Setlik W, et al. Homeodomain interacting protein kinase 2 regulates postnatal development of enteric dopaminergic neurons and glia via BMP signaling. J Neurosci. 2011;31:13746-57 pubmed publisher
immunohistochemistry; human; fig 3	Wray S, Dalmau J, Chen A, King S, Leigh R. Paraneoplastic disorders of eye movements. Ann N Y Acad Sci. 2011;1233:279-84 pubmed publisher
western blot; society finch; 1:200	Matsunaga E, Suzuki K, Kato S, Kurotani T, Kobayashi K, Okanoya K. Dynamic expression of cadherins regulates vocal development in a songbird. PLoS ONE. 2011;6:e25272 pubmed publisher
western blot; mouse; fig 3	Janardhan S, Praveen K, Marks R, Gajewski T. Evidence implicating the Ras pathway in multiple CD28 costimulatory functions in CD4+ T cells. PLoS ONE. 2011;6:e24931 pubmed publisher
immunohistochemistry; zebrafish ; 1:500; fig 5	Doll C, Burkart J, Hope K, Halpern M, Gamse J. Subnuclear development of the zebrafish habenular nuclei requires ER translocon function. Dev Biol. 2011;360:44-57 pubmed publisher
immunohistochemistry; Trachemys dorbigni; 1:100; fig 9	Reali C, Fernandez A, Radmilovich M, TRUJILLO CENOZ O, RUSSO R. GABAergic signalling in a neurogenic niche of the turtle spinal cord. J Physiol. 2011;589:5633-47 pubmed publisher
immunohistochemistry; mouse; 1:100; fig 7	Guo F, Maeda Y, Ma J, Delgado M, Sohn J, Miers L, et al. Macroglial plasticity and the origins of reactive astroglia in experimental autoimmune encephalomyelitis. J Neurosci. 2011;31:11914-28 pubmed publisher
immunohistochemistry; human; 1:50; fig 1	Wray S, Martinez Hernandez E, Dalmau J, Maheshwari A, Chen A, King S, et al. Paraneoplastic upbeat nystagmus. Neurology. 2011;77:691-3 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; fig 4	Ulrich F, Ma L, Baker R, Torres Vazquez J. Neurovascular development in the embryonic zebrafish hindbrain. Dev Biol. 2011;357:134-51 pubmed publisher
immunohistochemistry - paraffin section; human; 1:200 immunohistochemistry - paraffin section; rhesus macaque; 1:200	Noorian A, Taylor G, Annerino D, Greene J. Neurochemical phenotypes of myenteric neurons in the rhesus monkey. J Comp Neurol. 2011;519:3387-401 pubmed publisher
immunohistochemistry; zebrafish ; 1:1500; fig 2	Webb K, Coolen M, Gloeckner C, Stigloher C, Bahn B, Topp S, et al. The Enhancer of split transcription factor Her8a is a novel dimerisation partner for Her3 that controls anterior hindbrain neurogenesis in zebrafish. BMC Dev Biol. 2011;11:27 pubmed publisher
immunohistochemistry; mouse; 1:500; fig 4	Stridh L, Smith P, Naylor A, Wang X, Mallard C. Regulation of toll-like receptor 1 and -2 in neonatal mice brains after hypoxia-ischemia. J Neuroinflammation. 2011;8:45 pubmed publisher
western blot; human; 1:1000; fig s1	Filippova N, Yang X, Wang Y, Gillespie G, Langford C, King P, et al. The RNA-binding protein HuR promotes glioma growth and treatment resistance. Mol Cancer Res. 2011;9:648-59 pubmed publisher
immunohistochemistry; zebrafish ; 1:400; fig s4	Souza B, Romano Silva M, Tropepe V. Dopamine D2 receptor activity modulates Akt signaling and alters GABAergic neuron development and motor behavior in zebrafish larvae. J Neurosci. 2011;31:5512-25 pubmed publisher
immunohistochemistry; mouse; 1:250; fig s3	Winpenny E, Lebel Potter M, Fernandez M, Brill M, Gotz M, Guillemot F, et al. Sequential generation of olfactory bulb glutamatergic neurons by Neurog2-expressing precursor cells. Neural Dev. 2011;6:12 pubmed publisher
immunohistochemistry - paraffin section; human; 1:1250; fig 3	Kapur R, Fligner C, Maghsoodi B, Jaffe R. Gastrointestinal neuromuscular pathology in alpers disease. Am J Surg Pathol. 2011;35:714-22 pubmed publisher
immunohistochemistry; human; 1:100; fig 2	Bernardini N, Segnani C, Ippolito C, De Giorgio R, Colucci R, Faussone Pellegrini M, et al. Immunohistochemical analysis of myenteric ganglia and interstitial cells of Cajal in ulcerative colitis. J Cell Mol Med. 2012;16:318-27 pubmed publisher
immunohistochemistry - frozen section; chicken; 1:120; fig 8	Yoshimura K, Sugiura K, Ohmori Y, Aste N, Saito N. Immunolocalization of aquaporin-4 in the brain, kidney, skeletal muscle, and gastro-intestinal tract of chicken. Cell Tissue Res. 2011;344:51-61 pubmed publisher
immunohistochemistry; zebrafish ; 1:100-1:200; fig 2	Olsson C. Calbindin immunoreactivity in the enteric nervous system of larval and adult zebrafish (Danio rerio). Cell Tissue Res. 2011;344:31-40 pubmed publisher
immunohistochemistry; rat; 1:100; tbl 1	Gross A, Sims R, Swinny J, Sieghart W, Bolam J, Stanford I. Differential localization of GABA(A) receptor subunits in relation to rat striatopallidal and pallidopallidal synapses. Eur J Neurosci. 2011;33:868-78 pubmed publisher
immunohistochemistry - frozen section; rat; 5 ul/ml; fig 5	Tsai Y, Murakami N, Gariepy C. Postnatal intestinal engraftment of prospectively selected enteric neural crest stem cells in a rat model of Hirschsprung disease. Neurogastroenterol Motil. 2011;23:362-9 pubmed publisher
immunohistochemistry; domestic sheep; 1:400; fig 1	Arciszewski M, Stefaniak M, Zacharko Siembida A, Ca ka J. Aquaporin 1 water channel is expressed on submucosal but not myenteric neurons from the ovine duodenum. Ann Anat. 2011;193:81-5 pubmed publisher
immunohistochemistry; rat; 1:1000; fig 3	Yokose J, Ishizuka T, Yoshida T, Aoki J, Koyanagi Y, Yawo H. Lineage analysis of newly generated neurons in organotypic culture of rat hippocampus. Neurosci Res. 2011;69:223-33 pubmed publisher
immunocytochemistry; human; 1:250; fig 12 immunohistochemistry; human; 1:250; fig 12	Curchoe C, Maurer J, McKeown S, Cattarossi G, Cimadamore F, Nilbratt M, et al. Early acquisition of neural crest competence during hESCs neuralization. PLoS ONE. 2010;5:e13890 pubmed publisher
immunohistochemistry - frozen section; mouse; fig 5	Hegg C, Jia C, Chick W, Restrepo D, Hansen A. Microvillous cells expressing IP3 receptor type 3 in the olfactory epithelium of mice. Eur J Neurosci. 2010;32:1632-45 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:50 - 1:500	Uyttebroek L, Shepherd I, Harrisson F, Hubens G, Blust R, Timmermans J, et al. Neurochemical coding of enteric neurons in adult and embryonic zebrafish (Danio rerio). J Comp Neurol. 2010;518:4419-38 pubmed publisher
immunohistochemistry; zebrafish ; 1:20; fig 2	Sîrbulescu R, Zupanc G. Inhibition of caspase-3-mediated apoptosis improves spinal cord repair in a regeneration-competent vertebrate system. Neuroscience. 2010;171:599-612 pubmed publisher
immunocytochemistry; rat; 1:400; fig 1	Sand E, Themner Persson A, Ekblad E. Corticotropin releasing factor-distribution in rat intestine and role in neuroprotection. Regul Pept. 2011;166:68-75 pubmed publisher
immunohistochemistry - paraffin section; lepidosaurs; 1:500 western blot; lepidosaurs; 1:1000	Romero Alemán M, Monzon Mayor M, Santos E, Yanes C. Expression of neuronal markers, synaptic proteins, and glutamine synthetase in the control and regenerating lizard visual system. J Comp Neurol. 2010;518:4067-87 pubmed publisher
immunohistochemistry; human; 1:100-1:200; fig 1	Olsson C. Calbindin-immunoreactive cells in the fish enteric nervous system. Auton Neurosci. 2011;159:7-14 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:100; fig 1	Hagström C, Olsson C. Glial cells revealed by GFAP immunoreactivity in fish gut. Cell Tissue Res. 2010;341:73-81 pubmed publisher
immunohistochemistry - paraffin section; chicken; 1:100	Yang M, Cagle M, Honig M. Identification of cerebellin2 in chick and its preferential expression by subsets of developing sensory neurons and their targets in the dorsal horn. J Comp Neurol. 2010;518:2818-40 pubmed publisher
immunohistochemistry; pigs ; tbl 1	Patel B, Dai X, Burda J, Zhao H, Swain G, Galligan J, et al. Inhibitory neuromuscular transmission to ileal longitudinal muscle predominates in neonatal guinea pigs. Neurogastroenterol Motil. 2010;22:909-18, e236-7 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:800; fig 4	Peltopuro P, Kala K, Partanen J. Distinct requirements for Ascl1 in subpopulations of midbrain GABAergic neurons. Dev Biol. 2010;343:63-70 pubmed publisher
immunohistochemistry; zebrafish ; 4 ug/ml; fig 2	Nakano Y, Fujita M, Ogino K, Saint Amant L, Kinoshita T, Oda Y, et al. Biogenesis of GPI-anchored proteins is essential for surface expression of sodium channels in zebrafish Rohon-Beard neurons to respond to mechanosensory stimulation. Development. 2010;137:1689-98 pubmed publisher
immunocytochemistry; rat; 1:100; fig 3	Wong Y, Lu A, Wang Y, Cheng H, Chang C, Chen P, et al. Protogenin defines a transition stage during embryonic neurogenesis and prevents precocious neuronal differentiation. J Neurosci. 2010;30:4428-39 pubmed publisher
immunohistochemistry - free floating section; Atlantic canary; 1:40	Vellema M, Van der Linden A, Gahr M. Area-specific migration and recruitment of new neurons in the adult songbird brain. J Comp Neurol. 2010;518:1442-59 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:100	Ampatzis K, Dermon C. Regional distribution and cellular localization of beta2-adrenoceptors in the adult zebrafish brain (Danio rerio). J Comp Neurol. 2010;518:1418-41 pubmed publisher
immunohistochemistry; zebrafish ; 1:3000; fig 4	Collins R, Linker C, Lewis J. MAZe: a tool for mosaic analysis of gene function in zebrafish. Nat Methods. 2010;7:219-23 pubmed publisher
immunohistochemistry - free floating section; mouse; 1:100; fig 1	Liu Y, Namba T, Liu J, Suzuki R, Shioda S, Seki T. Glial fibrillary acidic protein-expressing neural progenitors give rise to immature neurons via early intermediate progenitors expressing both glial fibrillary acidic protein and neuronal markers in the adult hippocampus. Neuroscience. 2010;166:241-51 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:500	Caron E, Sachot C, Prevot V, Bouret S. Distribution of leptin-sensitive cells in the postnatal and adult mouse brain. J Comp Neurol. 2010;518:459-76 pubmed publisher
immunohistochemistry; pigs ; 1:50; fig 9	Liu S, Ren W, Qu M, Bishop G, Wang G, Wang X, et al. Differential actions of urocortins on neurons of the myenteric division of the enteric nervous system in guinea pig distal colon. Br J Pharmacol. 2010;159:222-36 pubmed publisher
immunohistochemistry; chicken; 1:200; fig 1	Stanke J, Fischer A. Embryonic retinal cells and support to mature retinal neurons. Invest Ophthalmol Vis Sci. 2010;51:2208-18 pubmed publisher
immunohistochemistry; rat; 1:750; fig 4	Ciofi P, Garret M, Lapirot O, Lafon P, Loyens A, Prevot V, et al. Brain-endocrine interactions: a microvascular route in the mediobasal hypothalamus. Endocrinology. 2009;150:5509-19 pubmed publisher
immunohistochemistry - paraffin section; zebrafish ; 1:200	Akhtar T, Li J, Olden T, Wallace K. Use of phospholipase A2 for antigen retrieval in zebrafish whole-mount immunohistochemistry. Zebrafish. 2009;6:223-7 pubmed publisher
immunohistochemistry; chicken; 1:50	Brunet N, Tarabal O, Esquerda J, Caldero J. Excitotoxic motoneuron degeneration induced by glutamate receptor agonists and mitochondrial toxins in organotypic cultures of chick embryo spinal cord. J Comp Neurol. 2009;516:277-90 pubmed publisher
immunohistochemistry; chicken; 1:500	Ishii Y, Weinberg K, Oda Ishii I, Coughlin L, Mikawa T. Morphogenesis and cytodifferentiation of the avian retinal pigmented epithelium require downregulation of Group B1 Sox genes. Development. 2009;136:2579-89 pubmed publisher
immunohistochemistry; guinea pig; 1:300; fig 4	Peck C, Samsuria S, Harrington A, King S, Hutson J, Southwell B. Fall in density, but not number of myenteric neurons and circular muscle nerve fibres in guinea-pig colon with ageing. Neurogastroenterol Motil. 2009;21:1075-e90 pubmed publisher
immunocytochemistry; zebrafish ; 1:500; fig 4	Flinn L, Mortiboys H, Volkmann K, Köster R, Ingham P, Bandmann O. Complex I deficiency and dopaminergic neuronal cell loss in parkin-deficient zebrafish (Danio rerio). Brain. 2009;132:1613-23 pubmed publisher
immunocytochemistry; chicken; 1:50	Caldero J, Brunet N, Ciutat D, Hereu M, Esquerda J. Development of microglia in the chick embryo spinal cord: implications in the regulation of motoneuronal survival and death. J Neurosci Res. 2009;87:2447-66 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Wang X, Lee J, Dorsky R. Identification of Wnt-responsive cells in the zebrafish hypothalamus. Zebrafish. 2009;6:49-58 pubmed publisher
immunohistochemistry; zebra finch	Tang Y, Wade J. Effects of estradiol on incorporation of new cells in the developing zebra finch song system: potential relationship to expression of ribosomal proteins L17 and L37. Dev Neurobiol. 2009;69:462-75 pubmed publisher
immunohistochemistry - paraffin section; human; 1:100; tbl 1	Ippolito C, Segnani C, De Giorgio R, Blandizzi C, Mattii L, Castagna M, et al. Quantitative evaluation of myenteric ganglion cells in normal human left colon: implications for histopathological analysis. Cell Tissue Res. 2009;336:191-201 pubmed publisher
immunohistochemistry; chicken; 1:200	McCabe K, Sechrist J, Bronner Fraser M. Birth of ophthalmic trigeminal neurons initiates early in the placodal ectoderm. J Comp Neurol. 2009;514:161-73 pubmed publisher
immunohistochemistry; zebrafish ; 1:20	Zupanc G, Wellbrock U, Sîrbulescu R, Rajendran R. Generation, long-term persistence, and neuronal differentiation of cells with nuclear aberrations in the adult zebrafish brain. Neuroscience. 2009;159:1338-48 pubmed publisher
immunocytochemistry; zebrafish ; 1:800; fig 3	Field H, Kelley K, Martell L, Goldstein A, Serluca F. Analysis of gastrointestinal physiology using a novel intestinal transit assay in zebrafish. Neurogastroenterol Motil. 2009;21:304-12 pubmed publisher
immunohistochemistry - paraffin section; mouse; 1:500; fig 2	Kala K, Haugas M, Lilleväli K, Guimera J, Wurst W, Salminen M, et al. Gata2 is a tissue-specific post-mitotic selector gene for midbrain GABAergic neurons. Development. 2009;136:253-62 pubmed publisher
immunohistochemistry; zebrafish ; fig 2	de Jong Curtain T, Parslow A, Trotter A, Hall N, Verkade H, Tabone T, et al. Abnormal nuclear pore formation triggers apoptosis in the intestinal epithelium of elys-deficient zebrafish. Gastroenterology. 2009;136:902-11 pubmed publisher
immunohistochemistry; zebrafish ; 1:100; fig 4	Montpetit A, Cote S, Brustein E, Drouin C, Lapointe L, Boudreau M, et al. Disruption of AP1S1, causing a novel neurocutaneous syndrome, perturbs development of the skin and spinal cord. PLoS Genet. 2008;4:e1000296 pubmed publisher
immunohistochemistry; domestic horse; fig 5	Hartig W, Reichenbach A, Voigt C, Boltze J, Bulavina L, Schuhmann M, et al. Triple fluorescence labelling of neuronal, glial and vascular markers revealing pathological alterations in various animal models. J Chem Neuroanat. 2009;37:128-38 pubmed publisher
immunohistochemistry; zebrafish ; 1:700; fig 4	McGraw H, Nechiporuk A, Raible D. Zebrafish dorsal root ganglia neural precursor cells adopt a glial fate in the absence of neurogenin1. J Neurosci. 2008;28:12558-69 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:200; fig 1 western blot; mouse; fig 3	Tiruchinapalli D, Caron M, Keene J. Activity-dependent expression of ELAV/Hu RBPs and neuronal mRNAs in seizure and cocaine brain. J Neurochem. 2008;107:1529-43 pubmed publisher
immunocytochemistry; rat; 1:400	Sand E, Themner Persson A, Ekblad E. Mast cells reduce survival of myenteric neurons in culture. Neuropharmacology. 2009;56:522-30 pubmed publisher
immunohistochemistry - frozen section; domestic sheep; 1:300	Arciszewski M, Barabasz S, Skobowiat C, Maksymowicz W, Majewski M. Immunodetection of cocaine- and amphetamine-regulated transcript in the rumen, reticulum, omasum and abomasum of the sheep. Anat Histol Embryol. 2009;38:62-7 pubmed publisher
immunohistochemistry; pigs ; 1:50	Liu S, Qu M, Ren W, Hu H, Gao N, Wang G, et al. Differential expression of canonical (classical) transient receptor potential channels in guinea pig enteric nervous system. J Comp Neurol. 2008;511:847-62 pubmed publisher
immunohistochemistry; rat immunohistochemistry; human	Power J, Blumbergs P. Cellular glutathione peroxidase in human brain: cellular distribution, and its potential role in the degradation of Lewy bodies in Parkinson's disease and dementia with Lewy bodies. Acta Neuropathol. 2009;117:63-73 pubmed publisher
immunohistochemistry - frozen section; rat; 1:500	Sakakibara S, Nakadate K, Tanaka Nakadate S, Yoshida K, Nogami S, Shirataki H, et al. Developmental and spatial expression pattern of alpha-taxilin in the rat central nervous system. J Comp Neurol. 2008;511:65-80 pubmed publisher
immunohistochemistry - frozen section; chicken; 1:200	Fischer A, Scott M, Tuten W. Mitogen-activated protein kinase-signaling stimulates Müller glia to proliferate in acutely damaged chicken retina. Glia. 2009;57:166-81 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Topp S, Stigloher C, Komisarczuk A, Adolf B, Becker T, Bally Cuif L. Fgf signaling in the zebrafish adult brain: association of Fgf activity with ventricular zones but not cell proliferation. J Comp Neurol. 2008;510:422-39 pubmed publisher
immunohistochemistry; domestic sheep; 1:1000; fig 2	Mazzuoli G, Lucherini M, Russo D, Clavenzani P, Chiocchetti R. Intrinsic neuronal control of the pyloric sphincter of the lamb. J Chem Neuroanat. 2008;36:98-106 pubmed publisher
immunohistochemistry; human	Ponti G, Peretto P, Bonfanti L. Genesis of neuronal and glial progenitors in the cerebellar cortex of peripuberal and adult rabbits. PLoS ONE. 2008;3:e2366 pubmed publisher
immunohistochemistry; guinea pig; 1:50 immunohistochemistry; human; 1:50	Hoff S, Zeller F, Von Weyhern C, Wegner M, Schemann M, Michel K, et al. Quantitative assessment of glial cells in the human and guinea pig enteric nervous system with an anti-Sox8/9/10 antibody. J Comp Neurol. 2008;509:356-71 pubmed publisher
immunohistochemistry; mouse; 1:50; fig 2h	Frontini A, Bertolotti P, Tonello C, Valerio A, Nisoli E, Cinti S, et al. Leptin-dependent STAT3 phosphorylation in postnatal mouse hypothalamus. Brain Res. 2008;1215:105-15 pubmed publisher
immunohistochemistry - paraffin section; river trout ; fig 2	Castro A, Becerra M, Anadón R, Manso M. Distribution of calretinin during development of the olfactory system in the brown trout, Salmo trutta fario: Comparison with other immunohistochemical markers. J Chem Neuroanat. 2008;35:306-16 pubmed publisher
immunohistochemistry - paraffin section; domestic sheep; 1:200	Schneider D, Yan H, Fry L, Alverson J, White S, O Rourke K. Myenteric neurons of the ileum that express somatostatin are a target of prion neuroinvasion in an alimentary model of sheep scrapie. Acta Neuropathol. 2008;115:651-61 pubmed publisher
immunohistochemistry - frozen section; mouse; 1:100; tbl 1	El Yazbi A, Cho W, Cena J, Schulz R, Daniel E. Smooth muscle NOS, colocalized with caveolin-1, modulates contraction in mouse small intestine. J Cell Mol Med. 2008;12:1404-15 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:100-200	Olsson C, Holmberg A, Holmgren S. Development of enteric and vagal innervation of the zebrafish (Danio rerio) gut. J Comp Neurol. 2008;508:756-70 pubmed publisher
immunohistochemistry; zebrafish ; 1:500	Sanek N, Grinblat Y. A novel role for zebrafish zic2a during forebrain development. Dev Biol. 2008;317:325-35 pubmed publisher
immunohistochemistry - frozen section; zebrafish ; 1:100	Ampatzis K, Kentouri M, Dermon C. Neuronal and glial localization of alpha(2A)-adrenoceptors in the adult zebrafish (Danio rerio) brain. J Comp Neurol. 2008;508:72-93 pubmed publisher
immunohistochemistry - free floating section; mouse; 1:50	Xu Q, Tam M, Anderson S. Fate mapping Nkx2.1-lineage cells in the mouse telencephalon. J Comp Neurol. 2008;506:16-29 pubmed
immunohistochemistry; guinea pig; 1:50	Fang X, Liu S, Wang X, Gao N, Hu H, Wang G, et al. Neurogastroenterology of tegaserod (HTF 919) in the submucosal division of the guinea-pig and human enteric nervous system. Neurogastroenterol Motil. 2008;20:80-93 pubmed
immunohistochemistry; domestic sheep; 1:1000; fig 8	Mazzuoli G, Mazzoni M, Albanese V, Clavenzani P, Lalatta Costerbosa G, Lucchi M, et al. Morphology and neurochemistry of descending and ascending myenteric plexus neurons of sheep ileum. Anat Rec (Hoboken). 2007;290:1480-91 pubmed
immunohistochemistry; rat; 1:500; fig 1	Patisaul H, Fortino A, Polston E. Sex differences in serotonergic but not gamma-aminobutyric acidergic (GABA) projections to the rat ventromedial nucleus of the hypothalamus. Endocrinology. 2008;149:397-408 pubmed
immunocytochemistry; rat; 1:800	Arciszewski M, Sand E, Ekblad E. Vasoactive intestinal peptide rescues cultured rat myenteric neurons from lipopolysaccharide induced cell death. Regul Pept. 2008;146:218-23 pubmed
immunohistochemistry; guinea pig; fig 6	Sage D, Salin P, Alcaraz G, Castets F, Giraud P, Crest M, et al. Na(v)1.7 and Na(v)1.3 are the only tetrodotoxin-sensitive sodium channels expressed by the adult guinea pig enteric nervous system. J Comp Neurol. 2007;504:363-78 pubmed
immunohistochemistry; human; fig 3	Agate R, Hertel M, Nottebohm F. FnTm2, a novel brain-specific transcript, is dynamically expressed in the song learning circuit of the zebra finch. J Comp Neurol. 2007;504:127-48 pubmed
immunohistochemistry - paraffin section; Xenopus laevis; 1:250	Lin G, Chen Y, Slack J. Regeneration of neural crest derivatives in the Xenopus tadpole tail. BMC Dev Biol. 2007;7:56 pubmed
immunohistochemistry; zebra finch; 1:50; fig 6	Hein A, Sridharan A, Nordeen K, Nordeen E. Characterization of CaMKII-expressing neurons within a striatal region implicated in avian vocal learning. Brain Res. 2007;1155:125-33 pubmed
immunocytochemistry; rat; 1:1000	Nagao M, Sugimori M, Nakafuku M. Cross talk between notch and growth factor/cytokine signaling pathways in neural stem cells. Mol Cell Biol. 2007;27:3982-94 pubmed
immunohistochemistry; zebrafish ; 1:100-1:200; fig 4	Holmberg A, Olsson C, Hennig G. TTX-sensitive and TTX-insensitive control of spontaneous gut motility in the developing zebrafish (Danio rerio) larvae. J Exp Biol. 2007;210:1084-91 pubmed
immunohistochemistry - frozen section; rat; 1:400; tbl 1	Kristensson E, Themner Persson A, Ekblad E. Survival and neurotransmitter plasticity in cultured rat colonic myenteric neurons. Regul Pept. 2007;140:109-16 pubmed
immunohistochemistry; human; 1:1000; tbl 1	Murphy E, Defontgalland D, Costa M, Brookes S, Wattchow D. Quantification of subclasses of human colonic myenteric neurons by immunoreactivity to Hu, choline acetyltransferase and nitric oxide synthase. Neurogastroenterol Motil. 2007;19:126-34 pubmed
immunocytochemistry; zebrafish ; 1:200	Ochocinska M, Hitchcock P. Dynamic expression of the basic helix-loop-helix transcription factor neuroD in the rod and cone photoreceptor lineages in the retina of the embryonic and larval zebrafish. J Comp Neurol. 2007;501:1-12 pubmed
immunohistochemistry; zebrafish ; 1:20	Pellegrini E, Mouriec K, Anglade I, Menuet A, Le Page Y, Gueguen M, et al. Identification of aromatase-positive radial glial cells as progenitor cells in the ventricular layer of the forebrain in zebrafish. J Comp Neurol. 2007;501:150-67 pubmed
immunohistochemistry; zebrafish ; 1:100	Fuller C, Yettaw H, Byrd C. Mitral cells in the olfactory bulb of adult zebrafish (Danio rerio): morphology and distribution. J Comp Neurol. 2006;499:218-30 pubmed
immunohistochemistry - paraffin section; mouse; fig 3	Clase A, Dimcheff D, Favara C, Dorward D, McAtee F, Parrie L, et al. Oligodendrocytes are a major target of the toxicity of spongiogenic murine retroviruses. Am J Pathol. 2006;169:1026-38 pubmed
immunocytochemistry; human	Lamba D, Karl M, Ware C, Reh T. Efficient generation of retinal progenitor cells from human embryonic stem cells. Proc Natl Acad Sci U S A. 2006;103:12769-74 pubmed
immunohistochemistry - frozen section; chicken; 1:250	Hendricks S, Rubel E, Nishi R. Formation of the avian nucleus magnocellularis from the auditory anlage. J Comp Neurol. 2006;498:433-42 pubmed
immunocytochemistry; mouse; 1:200	Becker S, Grabel L. The use of embryonic stem cells to study hedgehog signaling. Methods Mol Biol. 2006;329:171-85 pubmed
western blot; guinea pig; fig 2	Olsson C, Chen B, Jones S, Chataway T, Costa M, Brookes S. Comparison of extrinsic efferent innervation of guinea pig distal colon and rectum. J Comp Neurol. 2006;496:787-801 pubmed
immunohistochemistry; human; 1:50; fig 1	Brehmer A, Schrodl F, Neuhuber W. Morphology of VIP/nNOS-immunoreactive myenteric neurons in the human gut. Histochem Cell Biol. 2006;125:557-65 pubmed
immunohistochemistry; pigs ; 1:50	Liu S, Gao N, Hu H, Wang X, Wang G, Fang X, et al. Distribution and chemical coding of corticotropin-releasing factor-immunoreactive neurons in the guinea pig enteric nervous system. J Comp Neurol. 2006;494:63-74 pubmed
immunohistochemistry; human; 1:50; tbl 2	Ganns D, Schrodl F, Neuhuber W, Brehmer A. Investigation of general and cytoskeletal markers to estimate numbers and proportions of neurons in the human intestine. Histol Histopathol. 2006;21:41-51 pubmed publisher
immunohistochemistry - frozen section; domestic sheep; 1:1000	Chiocchetti R, Grandis A, Bombardi C, Lucchi M, Dal Lago D, Bortolami R, et al. Extrinsic and intrinsic sources of calcitonin gene-related peptide immunoreactivity in the lamb ileum: a morphometric and neurochemical investigation. Cell Tissue Res. 2006;323:183-96 pubmed
immunohistochemistry - frozen section; pigs ; 1:400	Arciszewski M, Pierzynowski S, Ekblad E. Lipopolysaccharide induces cell death in cultured porcine myenteric neurons. Dig Dis Sci. 2005;50:1661-8 pubmed
immunohistochemistry; human; fig 2	Lin A, Lourenssen S, Stanzel R, Blennerhassett M. Nerve growth factor sensitivity is broadly distributed among myenteric neurons of the rat colon. J Comp Neurol. 2005;490:194-206 pubmed
immunohistochemistry; mouse; fig 3	Ruhl A, Hoppe S, Frey I, Daniel H, Schemann M. Functional expression of the peptide transporter PEPT2 in the mammalian enteric nervous system. J Comp Neurol. 2005;490:1-11 pubmed
immunohistochemistry; rat; tbl 1	Zvarova K, Vizzard M. Distribution and fate of cocaine- and amphetamine-regulated transcript peptide (CARTp)-expressing cells in rat urinary bladder: a developmental study. J Comp Neurol. 2005;489:501-17 pubmed
immunocytochemistry; chicken	Hu F, Liu B, Budel S, Liao J, Chin J, Fournier A, et al. Nogo-A interacts with the Nogo-66 receptor through multiple sites to create an isoform-selective subnanomolar agonist. J Neurosci. 2005;25:5298-304 pubmed
immunohistochemistry - frozen section; rat; 1:800	Ekelund M, Ekelund M, Qader S, Hallén M, Ekblad E. Effects of total parenteral nutrition on rat enteric nervous system, intestinal morphology, and motility. J Surg Res. 2005;124:187-93 pubmed
immunohistochemistry; human; 1:50; fig 6	Brehmer A, Lindig T, Schrodl F, Neuhuber W, Ditterich D, Rexer M, et al. Morphology of enkephalin-immunoreactive myenteric neurons in the human gut. Histochem Cell Biol. 2005;123:131-8 pubmed
immunohistochemistry; chicken; fig 4	Afonso N, Catala M. Sonic hedgehog and retinoic acid are not sufficient to induce motoneuron generation in the avian caudal neural tube. Dev Biol. 2005;279:356-67 pubmed
immunohistochemistry; zebrafish ; 1:300	Ninkovic J, Tallafuss A, Leucht C, Topczewski J, Tannhäuser B, Solnica Krezel L, et al. Inhibition of neurogenesis at the zebrafish midbrain-hindbrain boundary by the combined and dose-dependent activity of a new hairy/E(spl) gene pair. Development. 2005;132:75-88 pubmed
immunohistochemistry - frozen section; pigs ; 1:400	Arciszewski M, Ekblad E. Effects of vasoactive intestinal peptide and galanin on survival of cultured porcine myenteric neurons. Regul Pept. 2005;125:185-92 pubmed
immunocytochemistry; human; 1:500	Schulz T, Noggle S, Palmarini G, Weiler D, Lyons I, Pensa K, et al. Differentiation of human embryonic stem cells to dopaminergic neurons in serum-free suspension culture. Stem Cells. 2004;22:1218-38 pubmed
immunohistochemistry; chicken; 1:1000	Elena de Bellard M, Bronner Fraser M. Neural crest migration methods in the chicken embryo. Methods Mol Biol. 2005;294:247-67 pubmed
immunohistochemistry - frozen section; rat; fig 3	Bauer S, Hay M, Amilhon B, Jean A, Moyse E. In vivo neurogenesis in the dorsal vagal complex of the adult rat brainstem. Neuroscience. 2005;130:75-90 pubmed
immunohistochemistry; mouse; 1:1000; fig 1 immunohistochemistry; guinea pig; 1:1000; fig 1 immunohistochemistry; rat; 1:1000; fig 1	Xiao J, Nguyen T, Ngui K, Strijbos P, Selmer I, Neylon C, et al. Molecular and functional analysis of hyperpolarisation-activated nucleotide-gated (HCN) channels in the enteric nervous system. Neuroscience. 2004;129:603-14 pubmed
immunohistochemistry - frozen section; zebrafish ; 1:500	Senut M, Gulati Leekha A, Goldman D. An element in the alpha1-tubulin promoter is necessary for retinal expression during optic nerve regeneration but not after eye injury in the adult zebrafish. J Neurosci. 2004;24:7663-73 pubmed
immunohistochemistry; domestic sheep; 1:1000	Chiocchetti R, Grandis A, Bombardi C, Clavenzani P, Costerbosa G, Lucchi M, et al. Characterisation of neurons expressing calbindin immunoreactivity in the ileum of the unweaned and mature sheep. Cell Tissue Res. 2004;318:289-303 pubmed
immunohistochemistry - paraffin section; rat; 1:800; fig 2	Lin Z, Sandgren K, Ekblad E. Increased expression of nitric oxide synthase in cultured neurons from adult rat colonic submucous ganglia. Auton Neurosci. 2004;114:29-38 pubmed
immunohistochemistry - frozen section; mouse	Aguirre A, Chittajallu R, Belachew S, Gallo V. NG2-expressing cells in the subventricular zone are type C-like cells and contribute to interneuron generation in the postnatal hippocampus. J Cell Biol. 2004;165:575-89 pubmed
immunocytochemistry; mouse; fig 3	Tabata Y, Ouchi Y, Kamiya H, Manabe T, Arai K, Watanabe S. Specification of the retinal fate of mouse embryonic stem cells by ectopic expression of Rx/rax, a homeobox gene. Mol Cell Biol. 2004;24:4513-21 pubmed
immunocytochemistry; rat; 1:200; fig 3 immunohistochemistry; rat; 1:800; fig 2	Phillips R, Hargrave S, Rhodes B, Zopf D, Powley T. Quantification of neurons in the myenteric plexus: an evaluation of putative pan-neuronal markers. J Neurosci Methods. 2004;133:99-107 pubmed
immunohistochemistry; zebrafish ; 1:1000; fig 2	Novak A, Ribera A. Immunocytochemistry as a tool for zebrafish developmental neurobiology. Methods Cell Sci. 2003;25:79-83 pubmed
immunohistochemistry; guinea pig; 1:200	Hu H, Gao N, Liu S, Ren J, Wang X, Xia Y, et al. Action of bradykinin in the submucosal plexus of guinea pig small intestine. J Pharmacol Exp Ther. 2004;309:320-7 pubmed
immunohistochemistry - paraffin section; chicken; fig 2	Fornaro M, Geuna S, Fasolo A, Giacobini Robecchi M. HuC/D confocal imaging points to olfactory migratory cells as the first cell population that expresses a post-mitotic neuronal phenotype in the chick embryo. Neuroscience. 2003;122:123-8 pubmed
immunohistochemistry; zebrafish	Holzschuh J, Barrallo Gimeno A, Ettl A, Durr K, Knapik E, Driever W. Noradrenergic neurons in the zebrafish hindbrain are induced by retinoic acid and require tfap2a for expression of the neurotransmitter phenotype. Development. 2003;130:5741-54 pubmed
western blot; zebrafish ; 1:500	McWhorter M, Monani U, Burghes A, Beattie C. Knockdown of the survival motor neuron (Smn) protein in zebrafish causes defects in motor axon outgrowth and pathfinding. J Cell Biol. 2003;162:919-31 pubmed
immunocytochemistry; rat; 1:800; fig 1	Lin Z, Sandgren K, Ekblad E. Increased expression of vasoactive intestinal polypeptide in cultured myenteric neurons from adult rat small intestine. Auton Neurosci. 2003;107:9-19 pubmed
immunocytochemistry; rat; 1:800	Sandgren K, Lin Z, Fex Svenningsen A, Ekblad E. Vasoactive intestinal peptide and nitric oxide promote survival of adult rat myenteric neurons in culture. J Neurosci Res. 2003;72:595-602 pubmed
immunohistochemistry; guinea pig; 1:50	Hu H, Liu S, Gao N, Xia Y, Mostafa R, Ren J, et al. Actions of bradykinin on electrical and synaptic behavior of neurones in the myenteric plexus of guinea-pig small intestine. Br J Pharmacol. 2003;138:1221-32 pubmed
immunohistochemistry; guinea pig; 1:100	Chiocchetti R, Poole D, Kimura H, Aimi Y, Robbins H, Castelucci P, et al. Evidence that two forms of choline acetyltransferase are differentially expressed in subclasses of enteric neurons. Cell Tissue Res. 2003;311:11-22 pubmed
immunohistochemistry; human; 1:800; fig 2	Wierup N, Svensson H, Mulder H, Sundler F. The ghrelin cell: a novel developmentally regulated islet cell in the human pancreas. Regul Pept. 2002;107:63-9 pubmed
immunohistochemistry; pigs ; 1:50; fig 5	Hu H, Gao N, Lin Z, Gao C, Liu S, Ren J, et al. P2X(7) receptors in the enteric nervous system of guinea-pig small intestine. J Comp Neurol. 2001;440:299-310 pubmed
immunohistochemistry - paraffin section; chicken; fig 4	Fornaro M, Geuna S, Fasolo A, Giacobini Robecchi M. Evidence of very early neuronal migration from the olfactory placode of the chick embryo. Neuroscience. 2001;107:191-7 pubmed
immunohistochemistry - paraffin section; rat; 1:200; fig 1	Fornaro M, Geuna S. Confocal imaging of HuC/D RNA-binding proteins in adult rat primary sensory neurons. Ann Anat. 2001;183:471-3 pubmed
immunohistochemistry - frozen section; mouse; fig 6	Miyata T, Kawaguchi A, Okano H, Ogawa M. Asymmetric inheritance of radial glial fibers by cortical neurons. Neuron. 2001;31:727-41 pubmed
immunohistochemistry; zebrafish ; 1:400	Kay J, Finger Baier K, Roeser T, Staub W, Baier H. Retinal ganglion cell genesis requires lakritz, a Zebrafish atonal Homolog. Neuron. 2001;30:725-36 pubmed
immunohistochemistry; chicken; 1:200; fig 6	Fischer A, Reh T. Müller glia are a potential source of neural regeneration in the postnatal chicken retina. Nat Neurosci. 2001;4:247-52 pubmed
ELISA; human western blot; human; fig 1	King P, Redden D, Palmgren J, Nabors L, Lennon V. Hu antigen specificities of ANNA-I autoantibodies in paraneoplastic neurological disease. J Autoimmun. 1999;13:435-43 pubmed
immunohistochemistry; Atlantic canary; fig 3 western blot; Atlantic canary; fig 1	Barami K, Iversen K, Furneaux H, Goldman S. Hu protein as an early marker of neuronal phenotypic differentiation by subependymal zone cells of the adult songbird forebrain. J Neurobiol. 1995;28:82-101 pubmed
immunohistochemistry - frozen section; human western blot; human	Szabo A, Dalmau J, Manley G, Rosenfeld M, Wong E, Henson J, et al. HuD, a paraneoplastic encephalomyelitis antigen, contains RNA-binding domains and is homologous to Elav and Sex-lethal. Cell. 1991;67:325-33 pubmed
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product information

Product Type :

Antibody

Product Name :

HuC/HuD Monoclonal Antibody (16A11)

Catalog # :

A-21271

Quantity :

100 µg

Price :

US 339.00

Clonality :

Monoclonal

Purity :

purified

Host :

Mouse

Reactivity :

Avian, Chicken, Human, Zebrafish

Applications :

Immunocytochemistry: 5-20 µg/mL, Immunohistochemistry (Frozen): 5-20 µg/mL, Western Blot: 1-5 µg/mL

Species :

Avian, Chicken, Human, Zebrafish

Clone :

16A11

Isotype :

IgG2b, kappa

Storage :

-20°C

Description :

Anti-Hu antibodies were originally isolated from a patient with paraneoplastic encephalomyelitis, a rare condition of selective neural tissue injury associated with small cell lung carcinoma. The antibodies bind specifically to antigens present exclusively in neuronal cells and are thus useful as markers of neuronal cells in tissue. The Hu antigen is an RNA-binding protein of the embryonic lethal abnormal visual (Elav) family.

Immunogen :

Human HuC/HuD neuronal protein.

Format :

Lyophilized

Applications w/Dilutions :

Immunocytochemistry: 5-20 µg/mL, Immunohistochemistry (Frozen): 5-20 µg/mL, Western Blot: 1-5 µg/mL

Aliases :

ELAV (embryonic lethal, abnormal vision, Drosophila)-like 3 (Hu antigen C); ELAV (embryonic lethal, abnormal vision, Drosophila)-like 4 (Hu antigen D); ELAV like neuron-specific RNA binding protein 3; ELAV like neuron-specific RNA binding protein 4; ELAV like RNA binding protein 4; elavC; ELAVL3; elavl3 protein; elavl4; ELAV-like protein 3; ELAV-like protein 4; elav-related C; elav-related D; elrc; elrd; embryonic lethal, abnormal vision-related C; embryonic lethal, abnormal vision-related D; etID309927.3; Hu antigen C; Hu antigen D; hu-antigen C; Hu-antigen D; HuC; HUCL; hud; id:ibd1248; Paraneoplastic cerebellar degeneration-associated antigen; paraneoplastic encephalomyelitis antigen HuD; Paraneoplastic limbic encephalitis antigen 21; PLE21; PNEM; protein elrD; ribonucleoprotein; RNA-binding protein HuD; wu:fb77b03; wu:fc24h01; zHuC

more info or order :

Invitrogen product webpage