sameAs
Arthropod phylogeny: onychophoran brain organization suggests an archaic relationship with a chelicerate stem lineageChelicerate neural ground pattern in a Cambrian great appendage arthropodGround plan of the insect mushroom body: functional and evolutionary implicationsGenealogical correspondence of a forebrain centre implies an executive brain in the protostome-deuterostome bilaterian ancestor.The larval nervous system of the penis worm Priapulus caudatus (Ecdysozoa)Introduction to 'Homology and convergence in nervous system evolution'Introduction to 'Origin and evolution of the nervous system'Dimorphic olfactory lobes in the arthropoda.Organization of the honey bee mushroom body: representation of the calyx within the vertical and gamma lobes.Complex brain and optic lobes in an early Cambrian arthropod.Brain structure resolves the segmental affinity of anomalocaridid appendages.The organization and evolutionary implications of neuropils and their neurons in the brain of the onychophoran Euperipatoides rowelli.A systematic nomenclature for the insect brain.An exceptionally preserved arthropod cardiovascular system from the early Cambrian.Anatomical organization of retinotopic motion-sensitive pathways in the optic lobes of flies.Arthropod eyes: The early Cambrian fossil record and divergent evolution of visual systems.Preservational Pathways of Corresponding Brains of a Cambrian Euarthropod.Optic glomeruli and their inputs in Drosophila share an organizational ground pattern with the antennal lobesFossils and the Evolution of the Arthropod Brain.Representation of the brain's superior protocerebrum of the flesh fly, Neobellieria bullata, in the central bodyNeural organization of first optic neuropils in the littoral crab Hemigrapsus oregonensis and the semiterrestrial species Chasmagnathus granulatus.Organization of optic lobes that support motion detection in a semiterrestrial crabDeep homology of arthropod central complex and vertebrate basal ganglia.Organization of local interneurons in optic glomeruli of the dipterous visual system and comparisons with the antennal lobes.Evolutionarily conserved mechanisms for the selection and maintenance of behavioural activity.Waptia revisited: Intimations of behaviors.Dynamics of glutamatergic signaling in the mushroom body of young adult Drosophila.Genealogical correspondence of mushroom bodies across invertebrate phyla.An insect-like mushroom body in a crustacean brainA unique mushroom body substructure common to basal cockroaches and to termites.The mushroom bodies of Drosophila melanogaster: an immunocytological and golgi study of Kenyon cell organization in the calyces and lobes.Octopamine-like immunoreactivity in the honey bee and cockroach: comparable organization in the brain and subesophageal ganglion.A letter from the editors.Chemical neuroanatomy of the fly's movement detection pathway.Development and morphology of class II Kenyon cells in the mushroom bodies of the honey bee, Apis mellifera.The computational basis of an identified neuronal circuit for elementary motion detection in dipterous insects.A new view of insect-crustacean relationships I. Inferences from neural cladistics and comparative neuroanatomy.Comparison of octopamine-like immunoreactivity in the brains of the fruit fly and blow fly.Representation of the stomatopod's retinal midband in the optic lobes: putative neural substrates for integrating chromatic, achromatic and polarization information.Learning with half a brain.
P50
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P50
description
British neuroscientist
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas J Strausfeld
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Nicholas J. Strausfeld
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Nicholas James Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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Nicholas Strausfeld
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