Searching for neuronal left/right asymmetry: genomewide analysis of nematode receptor-type guanylyl cyclases.
about
Aversive Behavior in the Nematode C. elegans Is Modulated by cGMP and a Neuronal Gap Junction NetworkChanges in cGMP levels affect the localization of EGL-4 in AWC in Caenorhabditis elegansThe C. elegans cGMP-dependent protein kinase EGL-4 regulates nociceptive behavioral sensitivityEGL-13/SoxD specifies distinct O2 and CO2 sensory neuron fates in Caenorhabditis elegansMutations in a guanylate cyclase GCY-35/GCY-36 modify Bardet-Biedl syndrome-associated phenotypes in Caenorhabditis elegansA map of terminal regulators of neuronal identity in Caenorhabditis elegansAmmonium-acetate is sensed by gustatory and olfactory neurons in Caenorhabditis elegansMaking a difference together: reciprocal interactions in C. elegans and zebrafish asymmetric neural developmentA behavioral switch: cGMP and PKC signaling in olfactory neurons reverses odor preference in C. elegans.Lateralized gustatory behavior of C. elegans is controlled by specific receptor-type guanylyl cyclasesReceptor-type Guanylyl Cyclases Confer Thermosensory Responses in C. elegans.The molecular signature and cis-regulatory architecture of a C. elegans gustatory neuron.The HMX/NKX homeodomain protein MLS-2 specifies the identity of the AWC sensory neuron type via regulation of the ceh-36 Otx gene in C. elegans.Cis-regulatory mechanisms of gene expression in an olfactory neuron type in Caenorhabditis elegans.Exploring the function of protein kinases in schistosomes: perspectives from the laboratory and from comparative genomics.Otx-dependent expression of proneural bHLH genes establishes a neuronal bilateral asymmetry in C. elegans.Receptor-type guanylate cyclase is required for carbon dioxide sensation by Caenorhabditis elegans.Chronic exposure to perfluorooctane sulfonate induces behavior defects and neurotoxicity through oxidative damages, in vivo and in vitro.Regulation of response properties and operating range of the AFD thermosensory neurons by cGMP signaling.Temperature, oxygen, and salt-sensing neurons in C. elegans are carbon dioxide sensors that control avoidance behavior.Regulation of extrasynaptic 5-HT by serotonin reuptake transporter function in 5-HT-absorbing neurons underscores adaptation behavior in Caenorhabditis elegansDegeneracy and neuromodulation among thermosensory neurons contribute to robust thermosensory behaviors in Caenorhabditis elegans.Changes in cyclic nucleotides, locomotory behavior, and body length produced by novel endogenous neuropeptides in the parasitic nematode Ascaris suumA left/right asymmetric neuronal differentiation program is controlled by the Caenorhabditis elegans lsy-27 zinc-finger transcription factorNotch-dependent induction of left/right asymmetry in C. elegans interneurons and motoneuronsGenetic screens for Caenorhabditis elegans mutants defective in left/right asymmetric neuronal fate specificationThe Importance of cGMP Signaling in Sensory Cilia for Body Size Regulation in Caenorhabditis elegans.Lateralization of visual learning in the honeybee.Architecture of a microRNA-controlled gene regulatory network that diversifies neuronal cell fates.Defining specificity determinants of cGMP mediated gustatory sensory transduction in Caenorhabditis elegansIn vivo genetic dissection of O2-evoked cGMP dynamics in a Caenorhabditis elegans gas sensor.Cis-regulatory mutations in the Caenorhabditis elegans homeobox gene locus cog-1 affect neuronal development.The LIM and POU homeobox genes ttx-3 and unc-86 act as terminal selectors in distinct cholinergic and serotonergic neuron types.Two distinct types of neuronal asymmetries are controlled by the Caenorhabditis elegans zinc finger transcription factor die-1.The tubulin repertoire of C. elegans sensory neurons and its context-dependent role in process outgrowth.From the research laboratory to the database: the Caenorhabditis elegans kinome in UniProtKBDevelopment of left/right asymmetry in the Caenorhabditis elegans nervous system: from zygote to postmitotic neuron.Single-cell transcriptional analysis of taste sensory neuron pair in Caenorhabditis elegansComprehensive single-cell transcriptional profiling of a multicellular organism.Molecular Mechanisms of Reception and Perireception in Crustacean Chemoreception: A Comparative Review.
P2860
Q27308650-018BEBFB-2F6E-4BE0-9A27-9A3CAB98942BQ27308921-065DE293-EF29-4F80-8B5C-70FB9B832C0BQ27321293-3EA52745-2F21-46E4-AF3F-4C33F7671CBCQ27322765-BD7304F7-75B9-4BA9-B888-62B6CFB9F25EQ27335893-DEAFB4D7-3D51-4EA9-AF69-8C5DC25EEB6AQ28074925-97EB2407-2A35-4E2E-BC9D-85B637911157Q28472969-75B6CFCD-ADF7-4532-9795-49841BA351F1Q28748749-361B82A3-15E8-4878-B519-3984C902F55AQ30484715-0357DBCD-B9BC-49C7-A116-AE24956CBC44Q30489699-136F8E1A-A1BA-4400-93C1-5BFDD5CDC373Q31067735-E80CD37D-0DEA-4A03-B33E-063FA658AB8AQ33289716-5501C946-1159-4338-A9FA-CB86131C86E5Q33710905-111D8750-7211-49D9-9D95-FBA4C65AF331Q33835529-3D7F18A8-13BE-4C6C-A2AD-6A8AEE7C3C41Q33980222-6B081DD6-0C27-4165-AE52-892E63E2ED2FQ34290559-315FF0BE-2341-41CB-868C-8B14C9E84B9CQ34472107-91F48D34-EBED-4A28-87C1-A117391CF7F3Q34549978-DA62B725-709B-42CF-B21F-4F4C1C605E13Q34674372-A7AF85C6-29BB-45DC-954F-70BBB524A9F5Q35045354-512E59DA-423A-477E-BC22-183E6D45AA16Q35157434-47A432A9-5DC8-4D85-BEA1-93402915F37EQ35197007-2C7F75A6-4FAE-4EE5-ABEA-FB1B3D1059EFQ35209277-35D1FD60-2DF1-4365-9DC9-9F66C2005B75Q35222718-AC8A82BD-4D16-428A-BF27-BD7FF4F8F590Q35601119-81452419-DA7B-4035-9E87-928773815834Q35945665-2C912FE4-77D8-49CE-88E6-9D98FD991989Q36365268-FF1424C8-D5FB-4140-AC04-183DCC21F492Q36699567-A4521CDF-8DFA-4491-B6A0-214D53AF3223Q36768108-DD230B9C-2DD8-42CB-81A4-29FB3EE538F7Q37063138-DFCEC178-719F-4868-9EB5-7D806E855BEBQ37143469-B6D99FC6-4EEB-4BE4-93A2-BB3CDCBD1115Q37152773-E248ED73-4744-4615-BEEA-6BC50A44C1D7Q37429363-0348B5E5-0B87-40FA-BC39-CFE84E2986AAQ37488730-51AA509D-75DE-4062-ACE9-9B6CA0E23F27Q37518034-D4EC2187-4F7F-49F5-9303-3963878A240EQ37622786-CA42FD97-0AF3-4EC9-BBE2-FC1F9281428BQ38186647-35ABAE12-FC04-403B-AC66-C08A04536348Q38349287-5E2D159F-46DB-462E-8279-1374C4AC06E4Q38619221-8C26DC6A-0327-4BD8-9AE0-4835D2B6811BQ38815625-ACFBAA5D-A33F-4ADB-91C4-25D8A7A75E4E
P2860
Searching for neuronal left/right asymmetry: genomewide analysis of nematode receptor-type guanylyl cyclases.
description
2006 nî lūn-bûn
@nan
2006 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2006 թվականի մարտին հրատարակված գիտական հոդված
@hy
2006年の論文
@ja
2006年学术文章
@wuu
2006年学术文章
@zh-cn
2006年学术文章
@zh-hans
2006年学术文章
@zh-my
2006年学术文章
@zh-sg
2006年學術文章
@yue
name
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@ast
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@en
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@nl
type
label
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@ast
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@en
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@nl
prefLabel
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@ast
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@en
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@nl
P2093
P2860
P1433
P1476
Searching for neuronal left/ri ...... ceptor-type guanylyl cyclases.
@en
P2093
Barry Honig
Christian Frøkjaer-Jensen
Christopher O Ortiz
John F Etchberger
Oliver Hobert
Shawn Lockery
Shoshana L Posy
P2860
P304
P356
10.1534/GENETICS.106.055749
P407
P577
2006-03-17T00:00:00Z