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The NEURON Book
The authoritative reference on NEURON, the simulation environment for modeling biological neurons and neural networks that enjoys wide use in the experimental and computational neuroscience communities. This book shows how to use NEURON to construct and apply empirically based models. Written primarily for neuroscience investigators, teachers, and students, it assumes no previous knowledge of computer programming or numerical methods. Readers with a background in the physical sciences or mathematics, who have some knowledge about brain cells and circuits and are interested in computational modeling, will also find it helpful. The NEURON Book covers material that ranges from the inner workings of this program, to practical considerations involved in specifying the anatomical and biophysical properties that are to be represented in models. It uses a problem-solving approach, with many working examples that readers can try for themselves.
Spiking Neuron Models
Neurons in the brain communicate by short electrical pulses, the so-called action potentials or spikes. How can we understand the process of spike generation? How can we understand information transmission by neurons? What happens if thousands of neurons are coupled together in a seemingly random network? How does the network connectivity determine the activity patterns? And, vice versa, how does the spike activity influence the connectivity pattern? These questions are addressed in this 2002 introduction to spiking neurons aimed at those taking courses in computational neuroscience, theoretical biology, biophysics, or neural networks. The approach will suit students of physics, mathematics, or computer science; it will also be useful for biologists who are interested in mathematical modelling. The text is enhanced by many worked examples and illustrations. There are no mathematical prerequisites beyond what the audience would meet as undergraduates: more advanced techniques are introduced in an elementary, concrete fashion when needed.
Biochemistry of Characterised Neurons
Biochemistry of Characterised Neurons provides a report on the progress made in the analysis of the biology of specific neurons in the central nervous system. This book emphasizes the biochemical, morphological, and functional aspects of characterized neurons, including ways and sophisticated techniques of isolating them. This publication is divided into 11 chapters. The first chapter evaluates the relevance of working with single neurons. Chapters 2 to 6 discuss specific, characterized, invertebrate neurons containing one of the putative neurotransmitter substances. Chapter 7 deals with the biochemistry of a unique vertebrate (Torpedo) cholinergic system that enables pure cholinergic neuron...
The Neuron and the Mind
This book, a companion to William R. Uttal’s earlier work on macrotheories theories of mind-brain relationships, reviews another set of theories—those based on microneuronal measurements. Microneural theories maintain the integrity of individual neurons either in isolation or as participants in the great neuronal networks that make up the physical brain. Despite an almost universal acceptance by cognitive neuroscientists that the intangible mind must, in some way, be encoded by network states, Uttal shows that the problem of how the transformation occurs is not yet supported by empirical research findings at the micro as well as at the macro levels of analysis. Theories of the neuronal network survive more as metaphors than as robust explanations. This book also places special emphasis on the technological developments that stimulate these metaphors. A major conclusion drawn in this book is that it is not at all certain that the mind-brain problem is solvable in the sense that many other grand scientific problems are.
Molecular Biology of the Neuron
This book is a valuable compendium of up-to-date reviews of neuronal molecular biology by leading researchers in the field. It covers all aspects of neuron structure and function, with the emphasis on genetic and molecular analysis.
Neurons: Methods and Applications for the Cell Biologist
Neurons: Methods and Applications for the Cell Biologist lays out numerous simple techniques for growing and carrying out experiments with many varieties of neurons. Subjects include peripheral and central neurons from vertebrate and invertebrate sources, as well as neuron-like cell lines. It also explains recent advances in our ability to introduce exogenous proteins and genes to neurons in culture. Procedures for successful protein infiltration, biolistic transfection, electroporation, and viral transgenic methods in neurons are also presented. Contains culture methodology for more than a dozen types of CNS and PNS neurons Includes most recent and reliable techniques from expert practitioners for specific experimental applications Addresses the latest strategies for transfecting neurons
From Neuron to Brain
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The Cortical Neuron
To understand how the cerebral cortex functions requires knowledge of single cells in this region and of their organization into cortical networks. Looking beyond the classical "wiring diagram" description of the organization of cortical cells into circuits, this innovative work focuses ondynamic aspects of cerebral cortical physiology, both at the single-neuron and network levels. Recent years have seen a remarkable expansion of knowledge about the basic cellular physiology and molecular biology of cortical neurons--their membrane properties, their synaptic characteristics, theirfunctional connectivity, their development, and the mechanisms of their response to injury. This authoritative vo...
Sensory Neurons
Vertebrate sensory neurons occupy a unique place in the nervous system, conveying information from the periphery to the CNS. While sensory physiologists have long recognized differences in response properties among cells in dorsal root and cranial ganglia, the full extent of heterogeneity among these neurons has only recently become apparent. Phenotypic diversity is the underlying theme of this unique work, which summarizes our current understanding of the individual characteristics and development of sensory neurons. The chapters are arranged in three cohesive sections. The first describes heterogeneity in the function, biochemical make-up, ion channels, membrane properties, and central pro...
Mirror Neurons and the Evolution of Brain and Language
The emergence of language, social intelligence, and tool development are what made homo sapiens sapiens differentiate itself from all other biological species in the world. The use of language and the management of social and instrumental skills imply an awareness of intention and the consideration that one faces another individual with an attitude analogical to that of one’s own. The metaphor of ‘mirror’ aptly comes to mind.Recent investigations have shown that the human ability to ‘mirror’ other’s actions originates in the brain at a much deeper level than phenomenal awareness. A new class of neurons has been discovered in the premotor area of the monkey brain: ‘mirror neuron...
