Smelling, feeling, tasting and touching: behavioral and neural integration of antennular chemosensory and mechanosensory inputs in the crayfish
暂无分享,去创建一个
[1] J. Atema. Chemical signals in the marine environment: dispersal, detection, and temporal signal analysis. , 1995, Proceedings of the National Academy of Sciences of the United States of America.
[2] C. Derby,et al. Dual antennular chemosensory pathways mediate odor-associative learning and odor discrimination in the Caribbean spiny lobster Panulirus argus. , 2002, The Journal of experimental biology.
[3] C. Derby,et al. Hooded sensilla homologues: Structural variations of a widely distributed bimodal chemomechanosensillum , 2002, The Journal of comparative neurology.
[4] A. Tierney,et al. Fine structure of aesthetasc chemoreceptors in the crayfish Orconectes propinquus , 1986 .
[5] J. Humphrey,et al. Directional asymmetry in responses of local interneurons in the crayfish deutocerebrum to hydrodynamic stimulation of the lateral antennular flagellum , 2007, Journal of Experimental Biology.
[6] C. Derby,et al. Mixture suppression in behavior: The antennular flick response in the spiny lobster towards binary odorant mixtures , 1991, Physiology & Behavior.
[7] Kate L. Christison-Lagay,et al. A mechanism for neuronal coincidence revealed in the crayfish antennule , 2008, Proceedings of the National Academy of Sciences.
[8] K. Wiese,et al. Mechanoreceptors for near-field water displacements in crayfish. , 1976, Journal of neurophysiology.
[9] V. Alones,et al. Cellular organization and growth‐related plasticity of the crayfish olfactory midbrain , 1993, Microscopy research and technique.
[10] R. Sandeman,et al. Crayfish brain interneurons that converge with serotonin giant cells in accessory lobe glomeruli , 1995, The Journal of comparative neurology.
[11] Analytical and numerical investigation of the flow past the lateral antennular flagellum of the crayfish Procambarus clarkii , 2007, Journal of Experimental Biology.
[12] M J Weissburg,et al. The fluid dynamical context of chemosensory behavior. , 2000, The Biological bulletin.
[13] D. Mellon. Regulation of conduction velocity in axons from near-field receptors of the crayfish antennule , 2010, Journal of Experimental Biology.
[14] D. Mellon. Combining Dissimilar Senses: Central Processing of Hydrodynamic and Chemosensory Inputs in Aquatic Crustaceans , 2007, The Biological Bulletin.
[15] J. Youson,et al. Relocalization of membrane enzymes accompanies biliary atresia in lamprey liver , 2004, Cell and Tissue Research.
[16] M. Koehl,et al. Antennule morphology and flicking kinematics facilitate odor sampling by the spiny lobster, Panulirus argus , 2008, Journal of Experimental Biology.
[17] B. Ache,et al. Cyclic nucleotide- and inositol phosphate-gated ion channels in lobster olfactory receptor neurons. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[18] B. Ache,et al. Antennular projections to the midbrain of the spiny lobster. I. Sensory innervation of the lateral and medial antennular neuropils , 1992, The Journal of comparative neurology.
[19] Manfred Schmidt,et al. Neuronal Processing of Chemical Information in Crustaceans , 2010 .
[20] B. Ache. Amino acid receptors in the antennules of Homarus americanus. , 1972, Comparative biochemistry and physiology. A, Comparative physiology.
[21] DeForest Mellon,et al. ELECTRICAL RESPONSES FROM DUALLY INNERVATED TACTILE RECEPTORS ON THE THORAX OF THE CRAYFISH , 1963 .
[22] D. Sandeman,et al. Adult neurogenesis: A common strategy across diverse species , 2007, The Journal of comparative neurology.
[23] S. Munger,et al. Nontopographic projection of olfactory sensory neurons in the crayfish brain , 1990, The Journal of comparative neurology.
[24] Fluid mechanical problems in crustacean active chemoreception , 2012 .
[25] D. Mellon,et al. Identified antennular near-field receptors trigger reflex flicking in the crayfish , 2012, Journal of Experimental Biology.
[26] B. Ache,et al. Antennular projections to the midbrain of the spiny lobster. II. Sensory innervation of the olfactory lobe , 1992, The Journal of comparative neurology.
[27] Whole cell recording from lobster olfactory receptor cells: responses to current and odor stimulation. , 1989, Journal of neurophysiology.
[28] C. Derby,et al. Ultrastructure and physiology of the hooded sensillum, a bimodal chemo‐mechanosensillum of lobsters , 2002, The Journal of comparative neurology.
[29] V. Alones,et al. Identification of three classes of multiglomerular, broad-spectrum neurons in the crayfish olfactory midbrain by correlated patterns of electrical activity and dendritic arborization , 1995, Journal of Comparative Physiology A.
[30] M. Brandt,et al. Differing postnatal development of the somatostatin- and luliberin- systems in the male and female rat , 2004, Cell and Tissue Research.
[31] J Atema,et al. Eddy Chemotaxis and Odor Landscapes: Exploration of Nature With Animal Sensors. , 1996, The Biological bulletin.
[32] B. Ache,et al. Odor sensitivity of cultured lobster olfactory receptor neurons is not dependent on process formation. , 1993, The Journal of experimental biology.
[33] C. Derby,et al. Morphology and distribution of setae on the antennules of the Caribbean spiny lobster Panulirus argus reveal new types of bimodal chemo-mechanosensilla , 2001, Cell and Tissue Research.
[34] H. Hatt,et al. Structural properties of bimodal chemo- and mechanosensitive setae on the pereiopod chelae of the crayfish, Austropotamobius torrentium , 2004, Cell and Tissue Research.
[35] P. Moore,et al. Chemical orientation to food by the crayfish Orconectes rusticus: influence of hydrodynamics , 1999, Animal Behaviour.
[36] Physiological characterization of antennular flicking reflexes in the crayfish , 1997, Journal of Comparative Physiology A.
[37] J. Atema,et al. Temporal resolution in olfaction: stimulus integration time of lobster chemoreceptor cells , 1996, The Journal of experimental biology.
[38] B. Ache,et al. Ultrastructure of the aesthetasc (olfactory) sensilla of the spiny lobster, Panulirus argus , 2004, Cell and Tissue Research.
[39] L. Wilkens,et al. Antennal Responses to Hydrodynamic and Tactile Stimuli in the Spiny Lobster Panulirus argus. , 1996, The Biological bulletin.
[40] B. Ache,et al. Threshold determination for olfactory receptors of the spiny lobster , 1980 .
[41] Jelle Atema,et al. The Function of Chemo- and Mechanoreceptors in Lobster (Homarus Americanus) Feeding Behaviour , 1982 .
[42] Bruce R. Johnson,et al. Narrow-spectrum chemoreceptor cells in the antenules of the american lobster, Homarus americanus , 1983, Neuroscience Letters.
[43] D. Sandeman,et al. Statocyst-induced eye movement in the crab Scylla serrata. I. The sensory input from the statocyst. , 1972, The Journal of experimental biology.
[44] Donald R. Webster,et al. Chemosensory guidance cues in a turbulent chemical odor plume , 2001 .
[45] L. Wilkens,et al. Directional selectivities of near-field filiform hair mechanoreceptors on the crayfish tailfan (Crustacea: Decapoda) , 1998, Journal of Comparative Physiology A.
[46] M. Cohen. The function of receptors in the statocyst of the lobster Homarus americanus , 1955, The Journal of physiology.
[47] J. Tautz,et al. The antennal feathered hairs in the crayfish: a non-innervated stimulus transmitting system , 2004, Journal of Comparative Physiology A.
[48] Integration of hydrodynamic and odorant inputs by local interneurons of the crayfish deutocerebrum , 2005, Journal of Experimental Biology.
[49] B. Ache,et al. Phosphatidylinositol 4,5-bisphosphate-dependent regulation of the output in lobster olfactory receptor neurons , 2010, Journal of Experimental Biology.
[50] H. R. Tuten,et al. Distribution of radioactive leucine following uptake by olfactory sensory neurons in normal and heteromorphic crayfish antennules , 1989, The Journal of comparative neurology.
[51] D. Sandeman,et al. Statocyst-Induced Eye Movements in the Crab Scylla Serrata , 1973 .
[52] Jelle Atema,et al. Sharks need the lateral line to locate odor sources: rheotaxis and eddy chemotaxis , 2007, Journal of Experimental Biology.
[53] F. Grasso,et al. How lobsters, crayfishes, and crabs locate sources of odor: current perspectives and future directions , 2002, Current Opinion in Neurobiology.
[54] B. Ache,et al. Histamine directly gates a chloride channel in lobster olfactory receptor neurons. , 1989, Proceedings of the National Academy of Sciences of the United States of America.
[55] T. Huxley. The crayfish;: An introduction to the study of zoology , 1880 .
[56] C. Derby,et al. The peripheral and central antennular pathway of the Caribbean stomatopod crustacean Neogonodactylus oerstedii. , 2003, Arthropod structure & development.
[57] B. Ache,et al. Olfaction: Responses of a Decapod Crustacean Are Enhanced by Flicking , 1979, Science.
[58] W. Gnatzy,et al. Are the funnel-canal organs the ‘campaniform sensilla’ of the shore crab, Carcinus maenas (Decapoda, Crustacea)? , 2004, Cell and Tissue Research.
[59] Friedrich G. Barth,et al. Medium Flow-Sensing Hairs: Biomechanics and Models , 2007 .
[60] B. Ache,et al. Antennular projections to the midbrain of the spiny lobster. III. Central arborizations of motoneurons , 1993, The Journal of comparative neurology.