Neuronal mechanisms of memory formation :
Neuronal mechanisms of memory formation : concepts of long-term potentiation and beyond /
edited by Christian Hölscher.
- Cambridge : Cambridge University Press, 2001.
- 1 online resource (xiii, 493 pages) : digital, PDF file(s).
Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Introduction: Long-Term Potentiation as a Model for Memory Mechanisms: The Story So Far / Long-Term Potentiation In Vitro and In Vivo: How Can We Fine-Tune the Current Models for Memory Formation? Persisting with Long-Term Potentiation as a Memory Mechanism: Clues from Variations in Long-Term Potentiation Maintenance / Long-Term Potentiation in the Amygdala: Implications for Memory / Multiple Roles for Synaptic Plasticity in Pavlovian Fear Conditioning / Plasticity of the Hippocampal Cellular Representation of Space / Christian Holscher -- Wickliffe C. Abraham. Michael T. Rogan, Marc G. Weisskopf and Yan-You Huang / [and others]. Stephen Maren. Kathryn J. Jeffery. Sect. 1. 1. 2. 3. 4.
Long-term potentiation (LTP) is by far the most dominant model for neuronal changes that might encode memory. LTP is an elegant concept that meets many criteria set up by theoreticians long before the model's discovery, and it also fits anatomical data of learning-dependent synapse changes. Since the discovery of LTP, the question has remained about how closely LTP produced in vitro by artificial stimulation of neurons actually models putative learning-induced synaptic changes. A number of recent investigations have tried to correlate synaptic changes observed after learning with changes produced by artificial stimulation of neurons. These studies have failed to find a correlation between the two forms of synaptic plasticity. In this book, an international group of neurobiologists and psychologists discuss their latest ideas and data. The results of experiments using electrophysiological techniques in vitro are discussed and compared with the results of in vivo experiments. Learning experiments are also discussed. Theoretical models such as the Hebb theory of synaptic changes during learning are compared to different models that do not predict upregulation of synaptic transmission. A wide approach is taken, and research and models in different brain areas such as the neocortex and the basal brain are discussed.
9780511529818 (ebook)
Memory.
Neural transmission--Regulation.
QP406 / .N486 2001
612.8/2
Title from publisher's bibliographic system (viewed on 05 Oct 2015).
Introduction: Long-Term Potentiation as a Model for Memory Mechanisms: The Story So Far / Long-Term Potentiation In Vitro and In Vivo: How Can We Fine-Tune the Current Models for Memory Formation? Persisting with Long-Term Potentiation as a Memory Mechanism: Clues from Variations in Long-Term Potentiation Maintenance / Long-Term Potentiation in the Amygdala: Implications for Memory / Multiple Roles for Synaptic Plasticity in Pavlovian Fear Conditioning / Plasticity of the Hippocampal Cellular Representation of Space / Christian Holscher -- Wickliffe C. Abraham. Michael T. Rogan, Marc G. Weisskopf and Yan-You Huang / [and others]. Stephen Maren. Kathryn J. Jeffery. Sect. 1. 1. 2. 3. 4.
Long-term potentiation (LTP) is by far the most dominant model for neuronal changes that might encode memory. LTP is an elegant concept that meets many criteria set up by theoreticians long before the model's discovery, and it also fits anatomical data of learning-dependent synapse changes. Since the discovery of LTP, the question has remained about how closely LTP produced in vitro by artificial stimulation of neurons actually models putative learning-induced synaptic changes. A number of recent investigations have tried to correlate synaptic changes observed after learning with changes produced by artificial stimulation of neurons. These studies have failed to find a correlation between the two forms of synaptic plasticity. In this book, an international group of neurobiologists and psychologists discuss their latest ideas and data. The results of experiments using electrophysiological techniques in vitro are discussed and compared with the results of in vivo experiments. Learning experiments are also discussed. Theoretical models such as the Hebb theory of synaptic changes during learning are compared to different models that do not predict upregulation of synaptic transmission. A wide approach is taken, and research and models in different brain areas such as the neocortex and the basal brain are discussed.
9780511529818 (ebook)
Memory.
Neural transmission--Regulation.
QP406 / .N486 2001
612.8/2