Search results for "Campaniform sensilla"

showing 3 items of 3 documents

The fine structural organization of sternal glands of pseudergates and workers in termites (Isoptera): a comparative survey

2008

1873-5495 (Electronic) Comparative Study Journal Article; Thirty-nine species belonging to different families of termites are studied to give a comprehensive view of the evolution of the sternal glands. Several modifications occurring at cuticular and cytological levels are described in neuter castes. The outer epicuticle is always pierced by epicuticular pores. In advanced termites the epicuticular filaments greatly increase in number and length creating a thick layer. The pore canals gradually enlarge while the cuticle changes into a lattice structure lining an extracellular space in which the secretion is stored. Two classes of cells are present in basal termites (Mastotermitidae, Hodote…

Comparative/methodsCampaniform sensillaTermopsidaeKalotermitidaeArthropod cuticleIsopteraBiologyElectronPheromonesExocrine GlandsMicroscopy Electron TransmissionSpecies SpecificitySense Organs/physiologyPheromones/physiologyAnimalsEcology Evolution Behavior and SystematicsCuticle (hair)MicroscopyTransmission/veterinarySense OrgansGeneral MedicineAnatomybiology.organism_classificationTermitidaeAnatomy ComparativeHodotermitidaeInsect ScienceScanning/veterinaryMicroscopy Electron ScanningIsoptera/classification/physiology/*ultrastructureAnatomyRhinotermitidaeDevelopmental BiologyExocrine Glands/ultrastructure
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Morphogenesis of mechanoreceptor and epidermal cells of crickets during the last instar, and its relation to molting-hormone level.

1980

(1) The fine structure of the cercal campaniform sensilla and epidermal cells of Gryllus bimaculatus Deg. (Saltatoria, Gryllidae) was examined, and the ecdysteroid level was monitored throughout the last larval instar. (2) The epidermal cells show changes in shape, cytoplasmic inclusions and differentiation of the apical cell membrane, coupled to the phases of buildup and breakdown of the (cercus) cuticle. (3) The imaginal epicuticle of the epidermal cells begins to form later (by about approximately 6h) than that of the campaniform sensilla. (4) The campaniform sensilla were studied with respect to (a) the morphogenesis of the cuticular apparatus, (b) the inclusion of phenol oxidases in th…

MaleEcdysoneanimal structuresHistologyCuticleCampaniform sensillaApolysisMolting cyclePathology and Forensic Medicinechemistry.chemical_compoundAnimalsEcdysteroidintegumentary systembiologyGryllus bimaculatusfungiMetamorphosis BiologicalCell BiologyAnatomybiology.organism_classificationCell biologychemistryEpidermal CellsEcdysisLarvaOrthopteraFemaleMechanoreceptorsEcdysoneCell and tissue research
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Cricket combined mechanoreceptors and kicking response

1977

1. Only those filiform hairs on the cerci ofGryllus, which are coupled with campaniform sensilla, show a) a thickening of the hair shaft at the height of the upper ring lamella of their sockets and b) a thin cuticular membrane, which surrounds their sockets. While thefiliform hairs themselves are deflected either parallel to the long axis of the cerci or perpendicular to it, thesockets of the filiform hairs may be deflected preferentially in the proximal and distal direction. 2. Spike potentials can be recorded from the sensory cells of the filiform hairs as long as these are deflected in a weak air current, but not during permanent deflection in strong air streams when they touch the inner…

PhysicsLong axisintegumentary systembiologyPhysiologyCampaniform sensillaHair shaftAnatomybiology.organism_classificationbody regionsBehavioral NeuroscienceCercusCricketAnimal Science and Zoologysense organsThickeningEcology Evolution Behavior and SystematicsJournal of Comparative Physiology ? A
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