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突触结构.组织及神经药理学-神经科学百科全书-2-导读版

  2020-08-07 00:00:00  

突触结构.组织及神经药理学-神经科学百科全书-2-导读版 本书特色

《神经科学百科全书2:突触结构、组织及神经药理学(影印版·导读版)》:《神经科学百科全书》原书篇幅巨大,为所有神经科学百科全书之首。由来自世界各地的2400多位专家撰稿人合力打造,覆盖了神经科学全部主要领域。书中每个词条在收入书中之前均经过顾问委员会的同行评议。词条中均含有词汇表、引言、参考文献和丰富的交叉参考内容。主编为著名神经科学家、美国神经科学学会前主席Larry R.Squire。内容平易,本科生即可读懂。深度和广度独一无二,足可满足专家学者的需要。导读版精选原书中的部分主题,按内容重新编排,更适合国内读者购买和阅读。

突触结构.组织及神经药理学-神经科学百科全书-2-导读版 目录

神经肌肉接头与间隙连接Autonomic Neuroeffector JunctionBotulinum and Tetanus ToxinsComparative Biology of Invertebrate Neuromuscular JunctionsDevelopment of Drosophila Neuromuscular JunctionsGap Junction Abnormalities and Disorders of the Nervous SystemGap Junction CommunicationGap Junctions and Electrical SynapsesGap Junctions and Hemichannels in GliaGap Junctions and Neuronal OscillationsGap Junctions: Metabolic ExchangesMagnocellular Neurosecretory System: Organization, Plasticity, Model Peptidergic NeuronsNeuromuscular Connections: Vertebrate Patterns ofNeuromuscular Junction (NMJ): A Target for Natural and Environmental Toxins in HumansNeuromuscular Junction (NMJ): AcetylcholinesterasesNeuromuscular Junction (NMJ): Activity-Dependent Muscle Fiber ModulationNeuromuscular Junction (NMJ): AgingNeuromuscular Junction (NMJ): Inherited and Acquired DisordersNeuromuscular Junction (NMJ): Mammalian DevelopmentNeuromuscular Junction (NMJ): Postsynaptic Basal LaminaNeuromuscular Junction (NMJ): Postsynaptic Events in Neuromuscular TransmissionNeuromuscular Junction (NMJ): Presynaptic Non-Quantal Release of TransmitterNeuromuscular Junction (NMJ): Presynaptic Schwann Cells and Modulation of Neuromuscular TransmissionNeuromuscular Junction (NMJ): Presynaptic Short-Term Plasticity of Neuromuscular TransmissionNeuromuscular Junction (NMJ): Presynaptic Stretch Effects on Neuromuscular TransmissionNeuromuscular Junction Plasticity in Mammals and Botulinum ToxinsNeuromuscular Junction: Neuronal Regulation of Gene Transcription at the VertebrateNeuromuscular Junction: Synapse EliminationNeuromuscular Transmission Modulation at Invertebrate Neuromuscular JunctionsPresynaptic Events in Neuromuscular TransmissionPresynaptic: Mitochondria and Presynaptic FunctionSchwann Cells and Plasticity of the Neuromuscular Junction神经理学A MPA Receptors: Molecular Biology and PharmacologyCognition: NeuropharmacologyDrug Addiction: Behavioral Pharmacology of Drug Addiction in RatsDrugs Addiction: ActionsExercise: Optimizing Function and Survival at the Cellular LevelMetabotropic Glutamate Receptors (mGluRs): Molecular Biology, Pharmacology and Cell BiologyNeuropeptide Receptors-Drug DevelopmentPharmacology of Sleep: Adenosine突触结构Active ZoneActivity-Dependent Remodeling of Presynaptic BoutonsAdenosine Receptor Mediated FunctionsCadherins and Synapse OrganizationCell Adhesion Molecules at SynapsesDendritic Spine HistoryEndocytic Traffic in SpinesEndocytosis and Presynaptic ScaffoldsEph Receptor Signaling and Spine MorphologyGlia and Synapse Formation: An OverviewGlutamate Receptor Organization: Ultrastructural InsightsLIM Kinase and Aetin Regulation of SpinesNeural Cell Adhesion Molecules and Synapse RegulationPostsynaptic Density/Architecture at Excitatory SynapsesPostsynaptic Specialization AssemblyPresynaptic Development: Functional and Morphological Organization..Presynaptic EndosomesPresynaptic Receptor SignalingPresynaptic Regulation by LiprinsRho GTPases and SpinesRibbon SynapsesRNA Granules: Functions within Presynaptic Terminals and Postsynaptic SpineSpine PlasticitySpines and Mental DisordersSynapsins and Regulation of the Reserve PoolSynaptic Capture and TaggingSynaptic Plasticity: Short-Term MechanismsTranslational Regulation at the SynapseUitrastructural Analysis of Spine PlasticityUltrastructural Organization of Release Sites in the Calyx of Held原书词条中英对照表

突触结构.组织及神经药理学-神经科学百科全书-2-导读版 节选

《神经科学百科全书2:突触结构、组织及神经药理学(影印版·导读版)》旨在将本学科丰富多元的内容条理化并仔细介绍,从而推动不同学术分支之间的沟通,提供权威的信息来源。该书面向较为广泛的读者群体,既包括初入神经科学研究的学生,也包括寻求特定专题知识的普通读者。无论是神经科学家,还是正在学习神经科学的本科生和研究生,或生命科学领域的教师、科普作家,都会从该参考书中获益。

突触结构.组织及神经药理学-神经科学百科全书-2-导读版 相关资料

插图:The autonomic neuromuscular junction differs in sev-eral important respects from the better known skele-tal neuromuscular junction; it is not a synapse withthe well-defined prejunctional and postjunctionalspecializations established for the skeletal neuromus-cular synapse or ganglionic synapses. A model of theautonomic neuroeffector junction has been proposedon the basis of combined electrophysiologic, histo-chemical, and electron-microscopical studies. Theessential features of this model are that the terminalportions of autonomic nerve fibers are varicose,transmitters being released en passage from varicos-ities during conduction of an impulse, although excit-atory and inhibitory junction potentials are probablyelicited only at close junctions. Furthermore, theeffectors are muscle bundles rather than single smoothmuscle cells and are connected by low-resistancepathways (gap junctions) that allow electrotonicspread of activity within the effector bundle. Inblood vessels, the nerves are confined to the adventi-tial side of the media muscle coat, and this geometryappears to facilitate dual control of vascular smoothmuscle by perivascular nerves and by endothelialrelaxing and contracting factors. Neuroeffector junc-tions do not have a permanent geometry with post-junctional specializations, but rather the varicositiesare continuously moving, and their special relationwith muscle cell membranes changes with time,including dispersal and reformation of receptor clus-ters. For example, varicosity movement is likely tooccur in cerebral blood arteries, where there is acontinuously increasing density of sympathetic inner-vation during development and aging and in hyper-tensive vessels or those that have been stimulatedchronically in vivo, where there can be an increasein innervation density of up to threefold.

突触结构.组织及神经药理学-神经科学百科全书-2-导读版

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