about
Crystal structures of Lymnaea stagnalis AChBP in complex with neonicotinoid insecticides imidacloprid and clothianidinSerotonin circuits and anxiety: what can invertebrates teach us?Cephalopods in neuroscience: regulations, research and the 3RsGABA transporters in Drosophila melanogaster: molecular cloning, behavior, and physiology.Characterization and comparative pharmacological studies of a functional gamma-aminobutyric acid (GABA) receptor cloned from the tobacco budworm, Heliothis virescens (Noctuidae:Lepidoptera).Data mining for protein-protein interactions in invertebrate model organisms.Molecular cloning of a putative voltage- and cyclic nucleotide-gated ion channel present in the antennae and eyes of Drosophila melanogaster.Short wavelength-sensitive opsins from the Saharan silver and carpenter ants.Expression and genetic variation of the Aplysia egg-laying hormone gene family in the atrial gland.Neuronal and non-neuronal responses to nerve crush in a pulmonate snail, Melampus bidentatus.Characterization of a putative pheromone biosynthesis-activating neuropeptide (PBAN) receptor from the pheromone gland of Heliothis peltigera.Spatiotemporal calcium signaling in a Drosophila melanogaster cell line stably expressing a Drosophila muscarinic acetylcholine receptor.Caenorhabditis elegans in the study of SMN-interacting proteins: a role for SMI-1, an orthologue of human Gemin2 and the identification of novel components of the SMN complex.Eleven new putative aminergic G-protein coupled receptors from Amphioxus (Branchiostoma floridae): identification, sequence analysis and phylogenetic relationship.Genes encoding putative biogenic amine receptors in the parasitic nematode Brugia malayi.Amphioxus expresses both vertebrate-type and invertebrate-type dopamine D(1) receptors.How do the macrocyclic lactones kill filarial nematode larvae?The effect of opioids and their antagonists on the nocifensive response of Caenorhabditis elegans to noxious thermal stimuli.Acute exposure to a sublethal dose of imidacloprid and coumaphos enhances olfactory learning and memory in the honeybee Apis melliferaControl of ecdysteroidogenesis: activation and inhibition of prothoracic gland activity.The nicotinic acetylcholine receptor gene family of the nematode Caenorhabditis elegans: an update on nomenclatureMolecular basis of the dopaminergic system in the cricket Gryllus bimaculatus.Actions of snake neurotoxins on an insect nicotinic cholinergic synapse.The method of isolation of the crayfish abdominal stretch receptor maintaining a connection of the sensory neuron to the ventral nerve cord ganglion.Single-cell analysis of peptide expression and electrophysiology of right parietal neurons involved in male copulation behavior of a simultaneous hermaphroditeProctolin in the post-genomic era: new insights and challenges.Selective effect of the anthelmintic bephenium on Haemonchus contortus levamisole-sensitive acetylcholine receptors.Ion channels: molecular targets of neuroactive insecticides.Neurodegenerative mutants in Drosophila: a means to identify genes and mechanisms involved in human diseases?Insect octopamine receptors: a new classification scheme based on studies of cloned Drosophila G-protein coupled receptors.Planarian homolog of puromycin-sensitive aminopeptidase DjPsa is required for brain regeneration.Spontaneous electrical activity recorded from the aphid central nervous systemAnatomy, physiology and pharmacology of Caenorhabditis elegans pharynx: a model to define gene function in a simple neural system.Insect neuronal cultures: an experimental vehicle for studies of physiology, pharmacology and cell interactions.Insect sodium channels and insecticide resistance.Nicotinic acetylcholine receptors: targets for commercially important insecticides.Insect nicotinic acetylcholine receptor gene families: from genetic model organism to vector, pest and beneficial species.Translational regulation of neuronal electrical properties.Two visual pigment opsins, one expressed in the dorsal region and another in the dorsal and ventral regions, of the compound eye of a dragonfly, Sympetrum frequens.Ant opsins: sequences from the Saharan silver ant and the carpenter ant.
P1433
Q27650068-1207DF8C-59FD-4E9E-AB4E-7352747B7949Q28485318-793F3BFE-7C55-47D4-A471-506FEC0612DCQ28658345-60AEF145-2607-4EBB-84E8-84FF69085059Q30672569-2B286124-DB3A-4DC0-95AB-923AA2B2328EQ30672582-062D8855-9D7D-446A-AD3A-36F34623A1EFQ31004440-3041B82C-F385-4CF5-ADDD-71AEF2785D6FQ31122013-1762D007-CBAA-4528-A7E1-D9632D307AEBQ32038523-6546617E-4000-41DD-AD75-256366997E87Q32126984-B1F7FCB8-5B72-4EAF-84FA-D3B36E58ABBCQ33185486-EDBD982E-EA09-4E17-A0B5-0D445D8F8141Q33185497-E5A2B834-88D5-43D1-AA56-A5DC60E9B259Q33187553-059F3348-A988-4C7D-9621-3B415C0EBDB3Q33257010-C9F04EE6-DD59-44AA-94A6-5F8BA841E338Q33269313-FA866769-9316-4B3A-B51C-459B9636D815Q33306518-C9A05E3E-9F5A-4F6A-A042-67656724E163Q33757569-18DEA60D-E34D-4A29-8F50-73E79FF11430Q33805501-FBDD404D-91E3-40D9-8E22-DF9F78B6F18AQ33897026-6A5D85F3-D94E-486B-A3B9-6AB36DD38DE6Q34034425-ECE69DA4-E73F-488B-93C9-EA282BD84C03Q34476341-682DA4D0-6A34-4C87-A53F-51B4E612787EQ34628360-30C7FE97-70AC-4E01-BADA-C2D2A9334327Q34641699-455EF503-6830-465F-9D99-49AD19B08616Q34665460-030C0E72-4B0F-40BC-A1EA-67A7A4430091Q35397761-D722475E-B207-4907-807C-FA7C6F39B3ABQ35861716-B3B4C6B2-4492-4F1C-B073-7663E36E61DEQ35892306-7E525BAF-668B-465C-8703-0A79F3DF85DDQ35995069-77A4D9B0-CF83-479D-853A-DBBA5A84EA9BQ36261790-FC4833FE-907E-4352-A938-1940F97AFB06Q36269243-B79F93E0-9E1F-401A-98A1-3A46613410FAQ36279906-30586415-E5A4-4ECC-B627-2727A3EE20F0Q36316685-F29D1536-0F5D-4D3B-B648-CF876141FB01Q36420935-A7EA0AF7-ED00-4924-9A41-B763562B4486Q36544676-294F1552-979F-4C16-BF66-F809AB3CCD7EQ36549726-0D4ED9D9-EDF2-4721-8BFB-82E55EA6BB5FQ36700565-C4210130-FDF1-4C81-A81D-0A1A0678DC59Q36704689-1A93D706-F78E-4FB3-81E1-BD8526BD9D48Q36704822-FD92E533-CD0F-4537-97D7-DA995F405D0CQ36707355-0B8416A3-DE7F-4855-9B66-93DBFA7FD878Q36891448-A9DA9D9C-F152-4B03-803C-9418B2DAC1CCQ36891454-77B011C7-96B7-429F-BB73-EFB12ADD01C7
P1433
description
journal
@en
revista científica
@es
rivista scientifica
@it
wetenschappelijk tijdschrift van Springer Science+Business Media
@nl
wissenschaftliche Fachzeitschrift
@de
مجلة
@ar
name
Invertebrate Neuroscience
@ast
Invertebrate Neuroscience
@da
Invertebrate Neuroscience
@en
Invertebrate Neuroscience
@es
Invertebrate Neuroscience
@fi
Invertebrate Neuroscience
@fr
Invertebrate Neuroscience
@it
Invertebrate Neuroscience
@nb
Invertebrate Neuroscience
@nl
Invertebrate Neuroscience
@nn
type
label
Invertebrate Neuroscience
@ast
Invertebrate Neuroscience
@da
Invertebrate Neuroscience
@en
Invertebrate Neuroscience
@es
Invertebrate Neuroscience
@fi
Invertebrate Neuroscience
@fr
Invertebrate Neuroscience
@it
Invertebrate Neuroscience
@nb
Invertebrate Neuroscience
@nl
Invertebrate Neuroscience
@nn
prefLabel
Invertebrate Neuroscience
@ast
Invertebrate Neuroscience
@da
Invertebrate Neuroscience
@en
Invertebrate Neuroscience
@es
Invertebrate Neuroscience
@fi
Invertebrate Neuroscience
@fr
Invertebrate Neuroscience
@it
Invertebrate Neuroscience
@nb
Invertebrate Neuroscience
@nl
Invertebrate Neuroscience
@nn
P3181
P1055
P1156
P1250
P1277
P1476
Invertebrate Neuroscience
@en