Organization and neural connections of the anterior optic tubercle in the brain of the locust, Schistocerca gregaria.
about
Comparative Neuroanatomy of the Lateral Accessory Lobe in the Insect BrainMolecular and neural mechanisms of sex pheromone reception and processing in the silkmoth Bombyx moriA distinct layer of the medulla integrates sky compass signals in the brain of an insectTransmedulla Neurons in the Sky Compass Network of the Honeybee (Apis mellifera) Are a Possible Site of Circadian InputThe central complex of the flesh fly, Neobellieria bullata: recordings and morphologies of protocerebral inputs and small-field neurons3D-Reconstructions and Virtual 4D-Visualization to Study Metamorphic Brain Development in the Sphinx Moth Manduca Sexta.Automatic Segmentation of Drosophila Neural Compartments Using GAL4 Expression Data Reveals Novel Visual Pathways.Anatomy of the lobula complex in the brain of the praying mantis compared to the lobula complexes of the locust and cockroach.Anatomical basis of sun compass navigation II: the neuronal composition of the central complex of the monarch butterfly.Brain composition in Godyris zavaleta, a diurnal butterfly, Reflects an increased reliance on olfactory information.Bio-inspired polarized skylight-based navigation sensors: a review.Synaptic Organization of Microglomerular Clusters in the Lateral and Medial Bulbs of the Honeybee Brain.Ultrastructure of GABA- and Tachykinin-Immunoreactive Neurons in the Lower Division of the Central Body of the Desert Locust.Central neural coding of sky polarization in insects.Integration of polarization and chromatic cues in the insect sky compass.Neurons in the brain of the desert locust Schistocerca gregaria sensitive to polarized light at low stimulus elevations.Anatomical organization of the brain of a diurnal and a nocturnal dung beetle.Receptive field properties and intensity-response functions of polarization-sensitive neurons of the optic tubercle in gregarious and solitarious locusts.The Locust Standard Brain: A 3D Standard of the Central Complex as a Platform for Neural Network Analysis.Photoreceptor projections and receptive fields in the dorsal rim area and main retina of the locust eye.Microglomerular Synaptic Complexes in the Sky-Compass Network of the Honeybee Connect Parallel Pathways from the Anterior Optic Tubercle to the Central Complex.Conditional perception under stimulus ambiguity: polarization- and azimuth-sensitive neurons in the locust brain are inhibited by low degrees of polarization.Polarization-sensitive and light-sensitive neurons in two parallel pathways passing through the anterior optic tubercle in the locust brain.Experience-related reorganization of giant synapses in the lateral complex: Potential role in plasticity of the sky-compass pathway in the desert ant Cataglyphis fortis.Lineage-based analysis of the development of the central complex of the Drosophila brain.Comparison of Navigation-Related Brain Regions in Migratory versus Non-Migratory Noctuid Moths.Anatomical basis of sun compass navigation I: the general layout of the monarch butterfly brain.Development of the anterior visual input pathway to the Drosophila central complex.The evolution of honey bee dance communication: a mechanistic perspective.Visual Input to the Drosophila Central Complex by Developmentally and Functionally Distinct Neuronal Populations.Afferent neural pathways from the photoperiodic receptor in the bean bug, Riptortus pedestris.Segregation of visual inputs from different regions of the compound eye in two parallel pathways through the anterior optic tubercle of the bumblebee (Bombus ignitus).
P2860
Q26738312-D4D2712E-33EC-4ED2-8CB8-26AFC3BF0195Q27022449-9C7FC312-5E12-494F-8CC4-96557BBCD10AQ27312126-D96E1BD2-3DED-4D8E-B872-077DD503E58AQ28551233-708B53E2-C460-45AF-8989-CEBF5476050CQ30435934-48DACB38-E56C-4933-B42E-4B92DBD592B1Q30493866-80F72456-495D-4C87-92EB-C286FE7BF3D7Q31115323-F80EAADB-F411-4F55-8C10-43326324FD78Q33701525-90BF2E36-C951-4248-AD5B-4F9C67105659Q34293597-0111D843-F159-45C3-812E-C12250003EB6Q35161668-E45C0E9F-FCAB-4D39-B53B-ECB40143BACAQ36468398-9872733C-7C47-4AA0-B404-60D516E74276Q37382319-B2522B9F-AC1A-48C5-9595-0F7E7D1804EAQ37475052-DC31628E-9F45-45C4-9578-73F763ECA737Q37833820-903FACF5-43B4-4975-AB07-4D87E3D77E6BQ38192883-DD7D8E42-E281-4D6A-9E00-20C6CB5F1459Q38406300-88E5AF16-83E6-4FA1-832C-32E76F1D0E35Q38772033-AD431215-3D28-4869-B5BC-D38626828752Q38984785-83D0A55E-CA82-499D-B224-BCB4A55688DFQ38984794-9D665A50-CC2D-4CF8-8427-4D64DE453B5DQ39035409-F5620E59-749F-4A21-B95D-0A778BED51B1Q39256695-E3A5A7F8-673C-4DC3-AC3E-B8D19837D9C0Q39353159-8A0DBC0F-9A8A-4A46-A78B-C56E08505083Q39353173-88044AC7-8FF5-4AC6-B1C3-C4769488AF6DQ39437674-00D61B7F-C33A-412F-886A-CFB6FDC67B13Q39792448-09371051-75D4-4394-821A-0D115277B0BCQ41475403-C0C51635-C1D9-4F9F-9E1E-4F8407312C38Q42013677-1BDBD7A9-A7B7-4E63-BEBB-2D744BC5AC92Q45943919-ED1BD373-241D-42DF-87B0-4D5CAB0CA55CQ46251712-BD2038E4-BABC-4EB3-AD20-4A73968949FAQ48234812-4F5F3E73-91C8-45D2-90C5-9D97F2281BFDQ48330385-F17F2137-7CA1-4DCA-9A18-54BD804F233AQ48875322-3ACD0448-A357-4EF3-BCF5-30311666D000
P2860
Organization and neural connections of the anterior optic tubercle in the brain of the locust, Schistocerca gregaria.
description
2003 nî lūn-bûn
@nan
2003年の論文
@ja
2003年学术文章
@wuu
2003年学术文章
@zh
2003年学术文章
@zh-cn
2003年学术文章
@zh-hans
2003年学术文章
@zh-my
2003年学术文章
@zh-sg
2003年學術文章
@yue
2003年學術文章
@zh-hant
name
Organization and neural connec ...... locust, Schistocerca gregaria.
@en
Organization and neural connec ...... locust, Schistocerca gregaria.
@nl
type
label
Organization and neural connec ...... locust, Schistocerca gregaria.
@en
Organization and neural connec ...... locust, Schistocerca gregaria.
@nl
prefLabel
Organization and neural connec ...... locust, Schistocerca gregaria.
@en
Organization and neural connec ...... locust, Schistocerca gregaria.
@nl
P2093
P356
P1476
Organization and neural connec ...... locust, Schistocerca gregaria
@en
P2093
Sabine Hofer
Stephan Gebhardt
Uwe Homberg
P304
P356
10.1002/CNE.10771
P407
P577
2003-08-01T00:00:00Z