Organization of columnar inputs in the third optic ganglion of a highly visual crab

Motion information provides essential cues for a wide variety of animal behaviors such as mate, prey, or predator detection. In decapod crustaceans and pterygote insects, visual codification of object motion is associated with visual processing in the third optic neuropile, the lobula. In this neuro...

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Detalles Bibliográficos
Autores principales: Bengochea, M., Berón de Astrada, M.
Formato: JOUR
Materias:
Crustacean
Dextran-conjugated dyes
Lobula
Neuroarchitecture
Optic neuropiles
fluorescein isothiocyanate dextran
adult
animal cell
animal tissue
Article
Brachyura
columnar neuron
functional anatomy
giant nerve cell
information processing
lamina
lobula
male
medulla
mesencephalon
movement perception
Neohelice granulata
neuroanatomy
neuropil
nonhuman
optic lobe
optic nerve
retina ganglion cell
structure activity relation
structure analysis
vision
visual information
visual stimulation
anatomy and histology
animal
eye
ganglion
innervation
nerve cell
physiology
visual system
visual system function
Animals
Eye
Ganglia, Invertebrate
Male
Motion Perception
Neurons
Ocular Physiological Phenomena
Vision, Ocular
Visual Pathways
Acceso en línea:http://hdl.handle.net/20.500.12110/paper_09284257_v108_n2-3_p61_Bengochea
Aporte de:
Biblioteca Digital - Facultad de Ciencias Exactas y Naturales (UBA) de Universidad de Buenos Aires
Descripción
Sumario:Motion information provides essential cues for a wide variety of animal behaviors such as mate, prey, or predator detection. In decapod crustaceans and pterygote insects, visual codification of object motion is associated with visual processing in the third optic neuropile, the lobula. In this neuropile, tangential neurons collect motion information from small field columnar neurons and relay it to the midbrain where behavioral responses would be finally shaped. In highly ordered structures, detailed knowledge of the neuroanatomy can give insight into their function. In spite of the relevance of the lobula in processing motion information, studies on the neuroarchitecture of this neuropile are scant. Here, by applying dextran-conjugated dyes in the second optic neuropile (the medulla) of the crab Neohelice, we mass stained the columnar neurons that convey visual information into the lobula. We found that the arborizations of these afferent columnar neurons lie at four main lobula depths. A detailed examination of serial optical sections of the lobula revealed that these input strata are composed of different number of substrata and that the strata are thicker in the centre of the neuropile. Finally, by staining the different lobula layers composed of tangential processes we combined the present characterization of lobula input strata with the previous characterization of the neuroarchitecture of the crab's lobula based on reduced-silver preparations. We found that the third lobula input stratum overlaps with the dendrites of lobula giant tangential neurons. This suggests that columnar neurons projecting from the medulla can directly provide visual input to the crab's lobula giant neurons. © 2014 Elsevier Ltd.

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