
This is the first book that attempts to bring together what is known about the fundamental mechanisms that underlie the development of the cortex in mammals. Ranging from the emergence of the forebrain from the neural plate to the functioning adult form, the authors draw on evidence from several species to provide a detailed description of processes at each stage. Where appropriate, evidence is extrapolated from non-mammalian species to generate hypotheses about mammalian development. In contrast to other texts of developmental biology, Mechanisms of Cortical Development integrates information on regulatory processes at the levels of molecules, cells and networks. The authors draw together an extensive literature on cellular development and structural morphology, biochemical and genetic events and hypotheses that have been subject to mathematical modelling. Important methodologies, such as transgenics and formal modelling, are explained for the non-specialist. Major future challenges are clearly identified. This is a unique contribution to the literature, combining the fundamentals of experimental developmental neurobiology with accessible neural modelling. It will be essential reading for neuroscientists in general as well as those with a particular interest in development.
This text investigates the fundamental biological and mathematical mechanisms that govern the development of the mammalian cerebral cortex. Authors David J. Price and David J. Willshaw synthesize findings from developmental neurobiology, genetics, and computational modeling to explain how the forebrain evolves from the neural plate into a functional adult structure. By integrating molecular, cellular, and network-level data, the authors provide a comprehensive framework for understanding cortical formation across various species.
What You Will Find
Scope Limits
Experts recognize this work as a foundational text that bridges the gap between experimental neurobiology and computational modeling. Readers frequently note the academic density of the prose, which serves as a specialized resource for researchers and students in the field of neuroscience.
Page Count:
315
Publication Date:
2000-06-15
Publisher:
Oxford University Press
ISBN-10:
019262427X
ISBN-13:
9780192624277
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