Pattern Formation In The Vertebrate Nervous System
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Pattern Formation in the Developing Nervous System
| Author | : E. M. Carpenter |
| Publisher | : S. Karger AG (Switzerland) |
| Total Pages | : 74 |
| Release | : 2000-01-01 |
| Genre | : Science |
| ISBN | : 9783805570862 |
This special issue features a collection of papers examining multiple aspects of central and peripheral nervous system development. They address molecular, genetic, and cellular aspects of central and peripheral nervous system organization and regional development. These papers highlight recent work from laboratories and investigators using vertebrate models to study processes affecting the early development of the nervous system. Several areas of the nervous system, such as the developing eye and spinal cord are used as models for examining molecular and cellular events contributing to neural development. Additional studies address genetic aspects of central nervous system development and identify novel genes implicated in CNS patterning. These papers present a diversity of approaches and model systems while retaining a central focus on the early events required to shape the nervous system. Researchers and instructors in developmental biology and developmental neuroscience will profit most from this publication.
Molecular Basis of Axon Growth and Nerve Pattern Formation
| Author | : Hajime Fujisawa |
| Publisher | : S Karger Ag |
| Total Pages | : 280 |
| Release | : 1997-01-01 |
| Genre | : Medical |
| ISBN | : 9783805565875 |
Since the last Taniguchi Symposium on Brain Science dealt with the subject of developmental neurobiology in 1982 and again in 1985, the field has greatly advanced in several respects. Twelve years ago, our knowledge on the segmentation or compartmentalization of the vertebrate nervous systems was extremely fragmental. Today through a combination of transcription factors and cell-cell signaling molecules and their receptors, we can explain how regional specification of vertebrate brains is accomplished, and how the neuraxis is established in development. We also have several sets of molecules which play roles in the directional growth of axons and specification of neuron wiring. Advances in technology, particularly in gene manipulation techniques in mice, have enabled us to explore the exact functions of molecules or genes in the development of vertebrate nervous systems. Finally, the development of new experimental animal models, in particular zebrafish, has opened a way for genetic approach even to the vertebrate nervous systems. This timely publication presents a broad spectrum of developmental mechanisms on vertebrate nervous systems at molecular and cellular levels.
Pattern Formation During Development
| Author | : Cold Spring Harbor Laboratory |
| Publisher | : CSHL Press |
| Total Pages | : 630 |
| Release | : 1997 |
| Genre | : Developmental biology |
| ISBN | : 9780879695354 |
The architecture of an embryo results from complex molecular interactions in time and space. The secrets of these processes are yielding quickly to genetic and cellular dissection in flies, mice and other species, and finding application to human embryology. This volume presents a survey of the induction of axes, control of cell migration, and the development of the nervous system, limbs, wings and other organs, seen from the perspective of 61 investigators. It is completed by a summary that charts the future of this dynamic field.
Patterning in Vertebrate Development
| Author | : Cheryll Tickle |
| Publisher | : Frontiers in Molecular Biology |
| Total Pages | : 272 |
| Release | : 2003 |
| Genre | : Language Arts & Disciplines |
| ISBN | : 9780199638697 |
'Patterning in Vertebrate Development' is a new volume in the 'Frontiers in Molecular Biology' series which provides a range of comprehensive, and authoritative reviews of current research into patterning, a fundamental process in developmental biology.
Development and Regeneration of the Nervous System
| Author | : S. Nona |
| Publisher | : Springer |
| Total Pages | : 276 |
| Release | : 2014-04-20 |
| Genre | : Medical |
| ISBN | : 9789401050371 |
This book explores aspects of the development and regeneration of the of the rote nervaus system, beginning with fundamental considerations of borneobox genes in vertebrate pattern formation. Two papers em phasize the roJe of mause Hox genes in patterning: the Hox-2 complex in the branchial arches and Hox-7 at later stages of development, par ticularly in the spinal cord and brain. The importance of borneobox genes and other transcription factors in patterning the Drosophila embryo is weil known. With the discovery of homologaus genes in higher verte brates including man, we now possess the molecular tools to begin to investigate the molecular basis of patterning in higher vertebrate em bryos. Interestingly, the last few years have seen the discovery of a number of diverged borneobox genes and other transcription factors in the head, such genes being arranged in a segmental pattern within the developing rhombomeres of the brain and such compartmentalization of expression being extended to their derivatives, tagether with those of the neural crest. More recently, both Hox genes and Pax genes have been described in a segmental arrangement as far torward as the developing forebrain. The majority of the book deals with regeneration of the nervaus system. Several aspects are explored, including ways of promoting central nervous system axons to grow back into a degenerating environment, for example by the use of complex polymeric matrices.
Development of Neural Circuitry
| Author | : |
| Publisher | : Academic Press |
| Total Pages | : 253 |
| Release | : 2009-05-07 |
| Genre | : Medical |
| ISBN | : 0080922619 |
The nervous system is highly complex both in its structural order and in its ability to perform the many functions required for survival and interaction with the environment; understanding how it develops has proven to be one of the greatest challenges in biology. Such precision demands that key events at every developmental stage are executed properly and are coordinated to produce the circuitry underlying each of the adult nervous system's functions. This volume describes the latest research on the cellular and molecular mechanisms of neural circuitry development, while providing researchers with a one-stop overview and synthesis of contemporary thought in the area. Reviews current research findings on the development of neural circuitry, providing researchers with an overview and synthesis of the latest contemporary thought in the cellular and molecular mechanisms that underlie the development of neural circuitry Includes chapters discussing topics such as the guidance of nerve growth and the formation of plasticity of synapses, helping researchers better understand underlying mechanisms of neural circuit development and maintenance that may play a role in such human diseases/conditions as depression, anxiety, and pain Chapters make use of a variety of human and animal models, allowing researchers to compare and contrast neural circuitry development across a wide spectrum of models
Vertebrate Pattern Formation
| Author | : |
| Publisher | : Elsevier |
| Total Pages | : 458 |
| Release | : 2024-06-01 |
| Genre | : Science |
| ISBN | : 0128234628 |
Vertebrate Pattern Formation, Volume 159 in the Current Topics in Developmental Biology series, highlights advances in the field, with this volume presenting interesting chapters on timely topics, including Hox genes patterning the vertebrate body, Endodermal patterning, The use of organoids/gastruloids to understand development, Cell shape and movements controlling development, Neural crest and placodes in vertebrate development, Patterning of the neural tube, Non-canonical Wnt signaling in axial extension, The control of transitions along the main body axis, Emergence of a left-right symmetric body plan in vertebrate embryos, Formation of the vascular system, Generation of patterns in the paraxial mesoderm, and more. Provides the authority and expertise of leading contributors from an international board of authors Presents the latest release in the Current Topics in Developmental Biology series Updated release includes the latest information on the Vertebrate Pattern Formation
Brain Architecture : Understanding the Basic Plan
| Author | : and Director NIBS Neuroscience Program University of Southern California Larry W. Swanson Milo Don and Lucille Appleman Professor of Biological Sciences |
| Publisher | : Oxford University Press, USA |
| Total Pages | : 283 |
| Release | : 2002-10-23 |
| Genre | : Medical |
| ISBN | : 0198026463 |
Depending on your point of view the brain is an organ, a machine, a biological computer, or simply the most important component of the nervous system. How does it work as a whole? What are its major parts and how are they interconnected to generate thinking, feelings, and behavior? This book surveys 2,500 years of scientific thinking about these profoundly important questions from the perspective of fundamental architectural principles, and then proposes a new model for the basic plan of neural systems organization based on an explosion of structural data emerging from the neuroanatomy revolution of the 1970's. The importance of a balance between theoretical and experimental morphology is stressed throughout the book. Great advances in understanding the brain's basic plan have come especially from two traditional lines of biological thought-- evolution and embryology, because each begins with the simple and progresses to the more complex. Understanding the organization of brain circuits, which contain thousands of links or pathways, is much more difficult. It is argued here that a four-system network model can explain the structure-function organization of the brain. Possible relationships between neural networks and gene networks revealed by the human genome project are explored in the final chapter. The book is written in clear and sparkling prose, and it is profusely illustrated. It is designed to be read by anyone with an interest in the basic organization of the brain, from neuroscience to philosophy to computer science to molecular biology. It is suitable for use in neuroscience core courses because it presents basic principles of the structure of the nervous system in a systematic way.
