Patterning in vertebrate development

Bibliographic Information

Patterning in vertebrate development

edited by Cheryll Tickle

(Frontiers in molecular biology, 41)

Oxford University Press, 2003

  • : hbk.
  • : pbk.

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Includes bibliographical references and index

Description and Table of Contents

Volume

: pbk. ISBN 9780199638697

Description

One of the most fascinating problems in biology is how a single cell, the fertilised egg, gives rise to a new individual. This volume in the "Frontiers in Molecular Biology" series discusses the methods by which cells in distinct regions of an embryo become different, a process known as patterning. Patterning is fundamental to establishing the spatial organisation of the developing embryo. It ensures that all the parts of the body are generated and that they form in exactly the right places. The ultimate in patterning is the formation of precise arrangements of specialised cells and tissues within each organ. Understanding the process of patterning during the embryonic development of vertebrates is a particular challenge for developmental biologists because vertebrates have an intricate and complex anatomy and histology. The first two chapters of "Patterning in Vertebrate Development" are introductory, explaining to the reader the general principles of vertebrate patterning and early embryology. The subsequent chapters address patterning in both nervous system and specific parts of the body.

Table of Contents

  • 1. Patterning and positional information
  • 2. Laying down the body plan
  • 3. Patterning the Xenopus embryo
  • 4. Somite and axial development
  • 5. Vertebrate neurogenesis
  • 6. Anteroposterior regionalization of the vertebrate nervous system
  • 7. Nervous connections
  • 8. Patterning of the neural crest
  • 9. Insights into the molecular basis of vertebrate forelimb and hindlimb identity
  • 10. Evolutionary aspects of vertebrate patterning
Volume

: hbk. ISBN 9780199638703

Description

One of the most fascinating problems in biology is how a single cell, the fertilised egg, gives rise to a new individual. The fertilised egg divides many times to form an embryo. This volume in the Frontiers in Molecular Biology series discusses the methods by which cells in distinct regions of an embryo become different, a process known as patterning. Patterning is fundamental to establishing the spatial organisation of the developing embryo. It ensures that all the parts of the body are generated and that they form in exactly the right places. The ultimate in patterning is the formation of precise arrangements of specialised cells and tissues within each organ. Understanding the process of patterning during the embryonic development of vertebrates is a particular challenge for developmental biologists because vertebrates have an intricate and complex anatomy and histology. The first two chapters of Patterning in Vertebrate Development are introductory, explaining to the reader the general principles of vertebrate patterning and early embryology. The subsequent chapters address patterning in both nervous system and specific parts of the body. Each chapter provides a detailed review of current research in a specific area of interest. These include topics such as neural specification, antero-posterior patterning of the neural tube, and molecular basis of vertebrate limb development. Throughout the volume, examples are drawn from a number of species, and particular emphasis is placed on recent discoveries about the molecular basis of patterning in vertebrates. The book concludes with a chapter which revisits many of the regions of the embryo previously discussed from an evolutionary perspective.

Table of Contents

  • 1. Patterning and positional information
  • 2. Laying down the body plan
  • 3. Patterning the Xenopus embryo
  • 4. Somite and axial development
  • 5. Vertebrate neurogenesis
  • 6. Anteroposterior regionalization of the vertebrate nervous system
  • 7. Nervous connections
  • 8. Patterning of the neural crest
  • 9. Insights into the molecular basis of vertebrate forelimb and hindlimb identity
  • 10. Evolutionary aspects of vertebrate patterning

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