Studies in human patients and animal models of disease suggest a strong correlation between defects in dendrite development and common neurological disorders such as autism. Much of this book is thus dedicated toward highlighting recent advances in our understanding of the cellular and molecular mechanisms that regulate the development and maintenance of dendrites, a crucial component of neurons. The book begins by presenting the current state of knowledge on the building blocks or cell biology of dendrites. Mechanisms that sculpt the stereotypic architecture of dendritic arbors and shape…mehr
Studies in human patients and animal models of disease suggest a strong correlation between defects in dendrite development and common neurological disorders such as autism. Much of this book is thus dedicated toward highlighting recent advances in our understanding of the cellular and molecular mechanisms that regulate the development and maintenance of dendrites, a crucial component of neurons. The book begins by presenting the current state of knowledge on the building blocks or cell biology of dendrites. Mechanisms that sculpt the stereotypic architecture of dendritic arbors and shape their connectivity are also discussed, along with recent work describing how dendritic organization and connectivity are perturbed in disease. A unique aspect of the book is its exploration of diverse neuronal cell types across vertebrates and invertebrates, allowing a comparison of mechanisms across distinct circuits and species. The book comprises six parts, which cover the major advances in thefield: Part 1, Introduction; Part 2, Basic Biology of Dendrites; Part 3, Patterning Dendritic Architecture of Neurons and Their Populations; Part 4, Cellular and Molecular Control of Dendrite Development and Maintenance; Part 5, Synapse Formation onto Dendrites; and Part 6, Dendrites in Disease. The book offers an excellent point of entry for students interested in neuroscience, as well as for clinicians.
Kazuo Emoto: Professor, Department of Biological Sciences, The University of Tokyo, Japan Rachel Wong: Professor, Department of Structural Biology, University of Washington, USA Eric Huang: Professor, Department of Pathology, University of California San Francisco, USA Casper Hoogenraad: Professor, Department of Biology, Utrecht University, The Netherlands
Inhaltsangabe
Part 1 Introduction.- 1 Introduction.-Part 2 Basic biology of dendrites.- 2 Cytoskeletal organization - actin.- 3 Cytoskeletal organization - microtubules.- 4 Membrane trafficking mechanisms:-endo/exocytosis.- 5 Synapse to nucleus signaling.- 6 Ultrastructural methods.-7 Bioimaging of dendritic signaling.- Part 3 Patterning dendritic architectureof neurons and their populations.- 8 Self-avoidance.- 9 Dendritic tiling.- 10Mosaics and lamination.- 11 Modifying dendritic structure after function.- Part4 Cellular and molecular control of dendrite development and maintenance.- 12Molecular control of dendrite development.- 13 Sensory-dependent regulation ofdendritic morphology.- 14 Dendrite maintenance.- Part 5 Synapse formation ontodendrites.- 15 Molecular assembly of excitatory synapses.- 16 Localizingreceptors and channels across the dendritic arbor.- 17 Synaptic adhesionmolecules.- 18 Balancing excitatory and inhibitory inputs.- 19 Assembly andreassembly of synapses.- Part6 Dendrites in disease.- 20 Dendrite developmentin autism and autism-related disorders.- 21 Dendrite degeneration inFrontotemporal dementia.- 22 Dendrite degeneration and Glaucoma.
Part 1 Introduction.- 1 Introduction.- Part 2 Basic biology of dendrites.- 2 Cytoskeletal organization – actin.- 3 Cytoskeletal organization – microtubules.- 4 Membrane trafficking mechanisms: -endo/exocytosis.- 5 Synapse to nucleus signaling.- 6 Ultrastructural methods.- 7 Bioimaging of dendritic signaling.- Part 3 Patterning dendritic architecture of neurons and their populations.- 8 Self-avoidance.- 9 Dendritic tiling.- 10 Mosaics and lamination.- 11 Modifying dendritic structure after function.- Part 4 Cellular and molecular control of dendrite development and maintenance.- 12 Molecular control of dendrite development.- 13 Sensory-dependent regulation of dendritic morphology.- 14 Dendrite maintenance.- Part 5 Synapse formation onto dendrites.- 15 Molecular assembly of excitatory synapses.- 16 Localizing receptors and channels across the dendritic arbor.- 17 Synaptic adhesion molecules.- 18 Balancing excitatory and inhibitory inputs.- 19 Assembly and reassembly of synapses.- Part6 Dendrites in disease.- 20 Dendrite development in autism and autism-related disorders.- 21 Dendrite degeneration in Frontotemporal dementia.- 22 Dendrite degeneration and Glaucoma.
Part 1 Introduction.- 1 Introduction.-Part 2 Basic biology of dendrites.- 2 Cytoskeletal organization - actin.- 3 Cytoskeletal organization - microtubules.- 4 Membrane trafficking mechanisms:-endo/exocytosis.- 5 Synapse to nucleus signaling.- 6 Ultrastructural methods.-7 Bioimaging of dendritic signaling.- Part 3 Patterning dendritic architectureof neurons and their populations.- 8 Self-avoidance.- 9 Dendritic tiling.- 10Mosaics and lamination.- 11 Modifying dendritic structure after function.- Part4 Cellular and molecular control of dendrite development and maintenance.- 12Molecular control of dendrite development.- 13 Sensory-dependent regulation ofdendritic morphology.- 14 Dendrite maintenance.- Part 5 Synapse formation ontodendrites.- 15 Molecular assembly of excitatory synapses.- 16 Localizingreceptors and channels across the dendritic arbor.- 17 Synaptic adhesionmolecules.- 18 Balancing excitatory and inhibitory inputs.- 19 Assembly andreassembly of synapses.- Part6 Dendrites in disease.- 20 Dendrite developmentin autism and autism-related disorders.- 21 Dendrite degeneration inFrontotemporal dementia.- 22 Dendrite degeneration and Glaucoma.
Part 1 Introduction.- 1 Introduction.- Part 2 Basic biology of dendrites.- 2 Cytoskeletal organization – actin.- 3 Cytoskeletal organization – microtubules.- 4 Membrane trafficking mechanisms: -endo/exocytosis.- 5 Synapse to nucleus signaling.- 6 Ultrastructural methods.- 7 Bioimaging of dendritic signaling.- Part 3 Patterning dendritic architecture of neurons and their populations.- 8 Self-avoidance.- 9 Dendritic tiling.- 10 Mosaics and lamination.- 11 Modifying dendritic structure after function.- Part 4 Cellular and molecular control of dendrite development and maintenance.- 12 Molecular control of dendrite development.- 13 Sensory-dependent regulation of dendritic morphology.- 14 Dendrite maintenance.- Part 5 Synapse formation onto dendrites.- 15 Molecular assembly of excitatory synapses.- 16 Localizing receptors and channels across the dendritic arbor.- 17 Synaptic adhesion molecules.- 18 Balancing excitatory and inhibitory inputs.- 19 Assembly and reassembly of synapses.- Part6 Dendrites in disease.- 20 Dendrite development in autism and autism-related disorders.- 21 Dendrite degeneration in Frontotemporal dementia.- 22 Dendrite degeneration and Glaucoma.
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