Dendrites provides a comprehensive survey of the current state of dendritic research across a range of topics, from dendritic morphology, evolution, development, and plasticity through to the key role of dendrites in brain disease. The third edition has been thoroughly revised, with each chapter updated or completely rewritten by leading experts.
Greg Stuart is currently Head of the Eccles Institute of Neuroscience at the Australian National University (ANU), Canberra, Australia. He did his undergraduate at Monash University (Melbourne), before doing a PhD in Neuroscience at the ANU. After his PhD he worked for 5 years at the Max Planck Institute for Medical Research in Heidelberg, Germany. During this time he developed methods for making electrical recordings from dendrites. He is considered a world expert on the physiology of neuronal dendrites and has made a number of seminal contributions to understanding how information is processed by individual nerve cells within the brain. Nelson Spruston is currently Scientific Program Director and Laboratory Head at the HHMI Janelia Research Campus. He completed his B.Sc. at the University of British Columbia (Vancouver) and his Ph.D. at the Baylor College of Medicine (Houston). He did postdoctoral research at the Max Planck Institute for Medical Research in Heidelberg, Germany. While there, he performed the first dendritic patch-clamp recordings from hippocampal pyramidal neurons. In his own lab (first at Northwestern University and now at Janelia), Spruston studies the role of dendrites in synaptic integration and plasticity. He has also made a number of discoveries concerning the functional properties of a variety of cell types in the hippocampus. Michael Häusser is Professor of Neuroscience at University College London and a Wellcome Trust Principal Research Fellow. He received his PhD from Oxford University under the supervision of Julian Jack. He subsequently worked with Bert Sakmann at the Max-Planck-Institute for Medical Research in Heidelberg and with Philippe Ascher at the Ecole Normale Superieure in Paris. He established his own laboratory at UCL in 1997 and became Professor of Neuroscience in 2001. He has made significant contributions to our understanding of the cellular basis of neural computation in the mammalian brain using a combination of experiments and theory, with a special focus on the role of dendrites. His group has helped to pioneer several new approaches for probing the function of single neurons and neural circuits in the intact brain.
Show moreDendrites provides a comprehensive survey of the current state of dendritic research across a range of topics, from dendritic morphology, evolution, development, and plasticity through to the key role of dendrites in brain disease. The third edition has been thoroughly revised, with each chapter updated or completely rewritten by leading experts.
Greg Stuart is currently Head of the Eccles Institute of Neuroscience at the Australian National University (ANU), Canberra, Australia. He did his undergraduate at Monash University (Melbourne), before doing a PhD in Neuroscience at the ANU. After his PhD he worked for 5 years at the Max Planck Institute for Medical Research in Heidelberg, Germany. During this time he developed methods for making electrical recordings from dendrites. He is considered a world expert on the physiology of neuronal dendrites and has made a number of seminal contributions to understanding how information is processed by individual nerve cells within the brain. Nelson Spruston is currently Scientific Program Director and Laboratory Head at the HHMI Janelia Research Campus. He completed his B.Sc. at the University of British Columbia (Vancouver) and his Ph.D. at the Baylor College of Medicine (Houston). He did postdoctoral research at the Max Planck Institute for Medical Research in Heidelberg, Germany. While there, he performed the first dendritic patch-clamp recordings from hippocampal pyramidal neurons. In his own lab (first at Northwestern University and now at Janelia), Spruston studies the role of dendrites in synaptic integration and plasticity. He has also made a number of discoveries concerning the functional properties of a variety of cell types in the hippocampus. Michael Häusser is Professor of Neuroscience at University College London and a Wellcome Trust Principal Research Fellow. He received his PhD from Oxford University under the supervision of Julian Jack. He subsequently worked with Bert Sakmann at the Max-Planck-Institute for Medical Research in Heidelberg and with Philippe Ascher at the Ecole Normale Superieure in Paris. He established his own laboratory at UCL in 1997 and became Professor of Neuroscience in 2001. He has made significant contributions to our understanding of the cellular basis of neural computation in the mammalian brain using a combination of experiments and theory, with a special focus on the role of dendrites. His group has helped to pioneer several new approaches for probing the function of single neurons and neural circuits in the intact brain.
Show more1: Kristen M. Harris and Josef Spacek: Dendrite structure
2: Samuel S.-H. Wang, Anthony E. Ambrosini, and Gayle M.
Wittenberg: Evolution and Scaling of Dendrites
3: Hollis T. Cline: Dendrite Development
4: Franck Polleux, Anirvan Ghosh, and Wesley B. Grueber: Molecular
Determinants of Dendrite and Spine Development
5: Irena Vlatkovic and Erin M. Schuman: Local translation in
dendrites
6: Natasha K. Hussain and Richard L. Huganir: Structure and
Molecular Organization of the Postsynaptic Density
7: Zoltan Nusser: Subcellular Distribution of Ligand- and
Voltage-Gated Ion Channels
8: R. Angus Silver, Andrew F. MacAskill, and Mark Farrant:
Neurotransmitter-gated ion channels in dendrites
9: Jeffrey C. Magee: Dendritic Voltage-gated Ion Channels
10: Fritjof Helmchen and U. Valentin Nägerl: Biochemical
compartmentalization in dendrites
11: Adam Carter and Bernardo Sabatini: Spine Calcium Signaling
12: Nelson Spruston, Greg Stuart, and Michael Häusser: Principles
of Dendritic Integration
13: Lucy Palmer, Masanori Murayama, and Matthew Larkum: Dendritic
integration in vivo
14: Wilfrid Rall: Modeling dendrites: A personal perspective
15: Etay Hay, Albert Gidon, Michael London, and Idan Segev: A
theoretical view of the neuron as an input-output computing
device
16: Bartlett W. Mel: Towards a simplified model of an active
dendritic tree
17: Hermann Cuntz: Modelling dendrite shape
18: Jérôme Maheux, Robert C. Froemke, and P. Jesper Sjöström:
Functional Plasticity at Dendritic Synapses
19: Tobias Bonhoeffer and Pico Caroni: Structural plasticity in
dendrites and spines
20: Ryohei Yasuda: Molecular signaling during plasticity of
dendritic spines
21: Nathaniel Urban and Troy W. Margrie: Dendrites as
Transmitters
22: Kevin M. Boergens, Manuel Berning, Moritz Helmstaedter:
Dendritic connectomics
23: Richard B. Dewell, Fabrizio Gabbiani: Linking Dendritic
Processing to Computation and Behavior in Invertebrates
24: Daniel Johnston, Andreas Frick, and Nicholas Poolos: Dendrites
and Disease
25: Michael Häusser, Nelson Spruston, and Greg Stuart: The Future
of Dendrite Research
Greg Stuart is currently Head of the Eccles Institute of
Neuroscience at the Australian National University (ANU), Canberra,
Australia. He did his undergraduate at Monash University
(Melbourne), before doing a PhD in Neuroscience at the ANU. After
his PhD he worked for 5 years at the Max Planck Institute for
Medical Research in Heidelberg, Germany. During this time he
developed methods for making electrical recordings from dendrites.
He is considered a world expert
on the physiology of neuronal dendrites and has made a number of
seminal contributions to understanding how information is processed
by individual nerve cells within the brain. Nelson Spruston is
currently Scientific Program Director and Laboratory Head at the
HHMI Janelia Research Campus. He completed his B.Sc. at the
University of British Columbia (Vancouver) and his Ph.D. at the
Baylor College of Medicine (Houston). He did postdoctoral research
at the Max Planck Institute for Medical Research in Heidelberg,
Germany. While there, he performed the first dendritic patch-clamp
recordings from hippocampal pyramidal neurons. In his own lab
(first at Northwestern University and now at
Janelia), Spruston studies the role of dendrites in synaptic
integration and plasticity. He has also made a number of
discoveries concerning the functional properties of a variety of
cell types in the
hippocampus. Michael Häusser is Professor of Neuroscience at
University College London and a Wellcome Trust Principal Research
Fellow. He received his PhD from Oxford University under the
supervision of Julian Jack. He subsequently worked with Bert
Sakmann at the Max-Planck-Institute for Medical Research in
Heidelberg and with Philippe Ascher at the Ecole Normale Superieure
in Paris. He established his own laboratory at UCL in 1997 and
became Professor of Neuroscience in 2001. He has made
significant contributions to our understanding of the cellular
basis of neural computation in the mammalian brain using a
combination of experiments and theory, with a special focus on the
role of
dendrites. His group has helped to pioneer several new approaches
for probing the function of single neurons and neural circuits in
the intact brain.
It provides a fascinating insight into the structure and function
of dendrites, and the input structures of nerve cells.
*Peter Jonas, Institute of Science and Technology, Austria,
Austria; Spectrum*
Dendrites is a wise investment and a must-have for advanced
undergraduate students as well as graduate students, postdoctoral
fellows, and independent investigators who specialize in cellular
approaches to studying CNS function and disease.
*CNS & Neurological Disorders - Drug Targets*
This book is a useful resource for all the students, educators, and
researchers in the field of neuroscience.
*Current Aging Science*
|
Ask a Question About this Product More... |
|
