Michel

Studia Chaburensia Pub Date : 1900-01-01 DOI:10.1093/benz/9780199773787.article.b00122293

Revista Iberoamericana, D. Teología, C. O. Rodríguez

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引用次数: 55

Abstract

s: Corotto, F.S. and Michel, W.C. Mechanisms of afterhyperpolarization in lobster olfactory receptor neurons. Soc. Neurosci. Abstr. 58.3, 1995. Michel, W.C., Burns, C.J. and Derbidge, D.S. A functional activity map of the zebrafish olfactory organ: A new method for activity dependent mapping of odor sensitivity using an agmatine specific antibody. Chem. Senses 21: 642, 1996. Michel, W.C., Derbidge, D.S., Chen, N.S. and Ikeda, D.K. Evidence for distinct receptors and transduction pathways for amino acid and bile acid stimuli in the zebrafish olfactory system. Chem. Senses 21: 642643, 1996. Ma, L. and Michel, W.C. Ruthenium red and neomycin block the zebrafish olfactory cyclic nucleotidegated channel. Chem. Senses 22: 740, 1997. Michel, W.C. and Burns, C.J. Spatial organization of odor-stimulated olfactory receptor neurons in the zebrafish olfactory epithelium. Chem. Senses 22: 748, 1997. Michel, W.C., Steullet, P. and Derby, C.D. Activity dependent labeling of spiny lobster olfactory receptor neurons confirms that aesthetasc sensilla are redundant sampling elements. Chem. Senses 22: 748, 1997. Eram, M., Brown, H.M. and Michel, W.C. Amino acid immunocytochemical characterization of the rat vomeronasal organ. Chem. Senses 22: 678, 1997. Michel, W.C. Distribution of amino acid immunoreactivity in the developing and adult olfactory organ of zebrafish. Chem. Senses 23: 552, 1998. Edwards, J.G. and Michel, W.C. Mapping the distribution of ionotropic glutamate receptors in the olfactory bulb of zebrafish using a channel permeant probe, agmatine (AGB). Chem. Senses 24: 534-535, 1999. Steullet, P., Cate, H.S., Nego, V., Michel, W.C. and Derby, C.D. Functional mapping of olfactory receptor cells within aesthetasc sensilla of the spiny lobster. Chem. Senses 24: 634, 1999. Lipschitz, D.L. and Michel, W.C. Guanidinium-based arginine analogs are detected by multiple odorant receptors (OR) in the zebrafish (Danio rerio) olfactory system. Chem Senses 24: 593, 1999. Michel, W.C., Danaceau, J.P. and Lucero, M.T. Odor-simulated labeling of individual olfactory sensory receptor neurons in the squid. Soc. Neurosci. Abstr. 29: 54.12, 1999. Edwards, J.G., Lipschitz, D.L. and Michel, W.C. Transmission of olfactory information from the epithelium to the bulb occurs via glutamate release in zebrafish. Chem. Senses 24: (in press). Lipschitz, D.L. and Michel, W.C. Do amino acids stimulate ciliated or microvillar olfactory sensory neurons? Chem. Senses 25: 669-670, 2000. Lucero, M.T. and Michel, W.C. Olfactory neuron subtypes display unique amino acid profiles but overlapping odor sensitivities. Chem. Senses 25: 663-664, 2000. Edwards, J.G. and Michel, W.C. Evidence of presynaptic acetylcholine receptors on zebrafish olfactory sensory neurons. Chem. Senses 26: 544, 2001. Eram, M. and Michel, W.C. Comparison of the amino acid composition of vagal and facial nerve innervated taste buds in the channel catfish. Soc. Neurosci. vol . 27, Program number #287.10, 2001. Eram, M. and Michel, W.C. Amino acid immunoreactivity of channel catfish peripheral taste system. Chem. Senses 26: 564, 2001. Edwards, J.G. and Michel, W.C. Pharmacological characterization of ionotropic glutamate receptors in the zebrafish olfactory bulb. Chem. Senses 27: A109. Edwards, J.G. and Michel, W.C. Ionotropic glutamate receptor activation selectively depletes GABA levels in zebrafish olfactory bulb. Chem. Senses 27: A109. Rolen, S.H., Michel, W.C. and Caprio, J. Update on polyamines as olfactory stimuli in goldfish. Chem. Senses 27: A73-A74. Sitthichai, A.A., Michel, W.C. and Lucero, M.T. Metabolic profile and odor responsiveness of squid olfactory neuron subtypes. Chem. Senses 27: A74.

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[5]陈晓明，陈晓明。龙虾嗅觉受体神经元后超极化机制的研究。Soc。>。[摘要]，1995。michael, w.c.c, Burns, C.J.和Derbidge, D.S.。斑马鱼嗅觉器官的功能活性图谱:一种利用agmatine特异性抗体进行气味敏感性活性依赖图谱的新方法。化学。感官21:642,1996。michael, w.c.， Derbidge, d.s.， Chen, N.S.和Ikeda, D.K.斑马鱼嗅觉系统中氨基酸和胆汁酸刺激的不同受体和转导途径的证据。化学。感官21:642643,1996。钌红和新霉素阻断斑马鱼嗅觉环核苷通道。化学。感官22:740,1997。张志强，张志强。气味刺激下斑马鱼嗅觉上皮中嗅觉受体神经元的空间组织。化学。感官22:748,1997。Michel, w.c.， Steullet, P.和Derby, C.D.。龙虾嗅觉感受器神经元的活动依赖标记证实了美感感受器是冗余采样元件。化学。感官22:748,1997。Eram, M, Brown, H.M.和Michel, W.C.。大鼠舌鼻器官的氨基酸免疫细胞化学表征。化学。科学通报22(2):678,1997。氨基酸免疫反应性在斑马鱼发育和成年嗅觉器官中的分布。化学。科学通报，1998。Edwards, J.G.和Michel, W.C.利用通道渗透探针agmatine (AGB)绘制斑马鱼嗅球中嗜离子性谷氨酸受体的分布。化学。科学通报24:534-535,1999。Steullet, P.， Cate, h.s.， Nego, V.， Michel, W.C.和Derby, C.D.。龙虾审美感受器中嗅觉受体细胞的功能定位。化学。科学通报24(2):1 - 4,1999。Lipschitz, D.L.和Michel, W.C.基于胍的精氨酸类似物在斑马鱼嗅觉系统中被多个气味受体(OR)检测到。化学学报，24(3)，1999。Michel, w.c.， Danaceau, J.P.和Lucero, M.T.。鱿鱼中单个嗅觉感觉受体神经元的气味模拟标记。Soc。>。文摘29:54.12,1999。edward, j.g.， Lipschitz, D.L.和Michel, W.C.斑马鱼嗅觉信息通过谷氨酸释放从上皮传递到球茎。化学。感官24:(按下)。氨基酸会刺激纤毛或微绒毛嗅觉感觉神经元吗?化学。感官25:669-670,2000。卢塞罗，M.T.和米歇尔，W.C.嗅觉神经元亚型显示独特的氨基酸谱，但重叠的气味敏感性。化学。科学通报，2000。edward, J.G.和Michel, W.C.斑马鱼嗅觉感觉神经元突触前乙酰胆碱受体的证据。化学。科学通报26(4)，2001。Eram, M.和Michel, W.C.海峡鲶鱼迷走神经和面神经支配味蕾的氨基酸组成比较。Soc。>。卷。程序编号287.10,2001。Eram, M.和Michel, W.C.通道鲶鱼外周味觉系统的氨基酸免疫反应性。化学。科学通报26(4)，2001。edward, J.G.和Michel, W.C.斑马鱼嗅球中嗜离子性谷氨酸受体的药理特性。化学。感官27:A109。爱德华兹，J.G.和米歇尔，W.C.离子型谷氨酸受体激活选择性地消耗斑马鱼嗅球中的GABA水平。化学。感官27:A109。罗伦，s.h.，米歇尔，W.C.和卡普里奥，J.金鱼嗅觉刺激的多胺研究进展。化学。感官27:A73-A74。sitthihai, a.a.， Michel, W.C.和Lucero, M.T.鱿鱼嗅觉神经元亚型的代谢特征和气味反应。化学。感官27:A74。

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Studia Chaburensia

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