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Hox Modules in Evolution and Development [Hardback]

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  • Formāts: Hardback, 202 pages, height x width: 234x156 mm, weight: 540 g, 3 Tables, black and white; 21 Line drawings, color; 5 Line drawings, black and white; 12 Halftones, color; 33 Illustrations, color; 5 Illustrations, black and white
  • Sērija : Evolutionary Cell Biology
  • Izdošanas datums: 14-Apr-2023
  • Izdevniecība: CRC Press
  • ISBN-10: 0367522586
  • ISBN-13: 9780367522582
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Hox Modules in Evolution and DevelopmentPalielināt
  • Formāts: Hardback, 202 pages, height x width: 234x156 mm, weight: 540 g, 3 Tables, black and white; 21 Line drawings, color; 5 Line drawings, black and white; 12 Halftones, color; 33 Illustrations, color; 5 Illustrations, black and white
  • Sērija : Evolutionary Cell Biology
  • Izdošanas datums: 14-Apr-2023
  • Izdevniecība: CRC Press
  • ISBN-10: 0367522586
  • ISBN-13: 9780367522582
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9780367522582.html
Keywords:

Few, if any, genes have had the same level of impact on the field of evolutionary-developmental biology (evo-devo) as the Hox genes. These genes are renowned for their roles in patterning the body plans and development of the animal kingdom.



Few, if any, genes have had the same level of impact on the field of evolutionary-developmental biology (evo-devo) as the Hox genes. These genes are renowned for their roles in patterning the body plans and development of the animal kingdom. This is complemented by the distinctive organisation of these genes in the genome, with them frequently being found as clusters in which gene position is linked to when and where the individual genes are expressed, particularly during embryogenesis. This book provides the latest overviews of Hox gene organisation and function for major clades of animals from across the animal kingdom. With the rapidly increasing availability of high-quality whole genome sequences from an ever-expanding range of species, it is becoming increasingly evident that there is great diversity in the organisation of Hox genes. These great strides in genome sequencing are wedded to important developments in our ability to detect expression and disrupt gene function in species that are not traditionally genetically-amenable animals. These technical developments are integrated with wide taxon-sampling in this volume to provide new perspectives on the roles of Hox genes in understanding fundamental issues such as embryo patterning, mechanisms of gene regulation, homology, evolvability, evolutionary novelties, phylogeny, the role of gene and genome duplications in evolution, and ancestral states for major clades of animals.

Key features

  • Integrative overviews from major animal groups including, arthropods, vertebrates, echinoderms, mollusks and other spiralians.

  • Perspectives gleaned from the latest genome sequence and gene expression data.

  • Individual chapters written by world-leading experts in Hox genes and evo-devo in each animal group.

Related Titles

Scholtz, G., ed. Evolutionary Developmental Biology of Crustacea (ISBN 978-9-0580-9637-1)

Mattick, J. & P. Amaral. RNA, The Epicenter of Genetic Information (ISBN 978-0-3675-6778-1)

Bard, J. Evolution: The Origins and Mechanisms of Diversity (ISBN 978-0-3673-5701-6)

Series Preface ix
Preface xi
About the Editor xiii
Contributors xv
Chapter 1 Introduction to Hox Modules in Evolution and Development
1(14)
David E.K. Ferrier
Chapter 2 Multiple Layers of Complexity in the Regulation of the Bithorax Complex of Drosophila
15(38)
Francois Karch
Robert K. Maeda
Chapter 3 The Role of Hox Genes in the Origins and Diversification of Beetle Horns
53(24)
Eduardo E. Zattara
Armin P. Moczek
Chapter 4 Duplication and Evolution of Hox Clusters in Chelicerata (Arthropoda)
77(26)
Prashant P. Sharma
Chapter 5 Structural Constraints in Hox Clusters: Lessons from Sharks and Rays
103(18)
Shigehiro Kuraku
Chapter 6 Evolution of Cyclostome Hox Clusters
121(20)
Juan Pascual-Anaya
Christine Bohmer
Chapter 7 Hox Genes in Echinoderms
141(20)
Akihito Omori
Naoki Irie
Chapter 8 Hox Genes in Mollusca
161(16)
Tim Wollesen
Andreas Wanninger
Chapter 9 The Evolution of Hox Genes in Spiralia
177(18)
Ludwik Gasiorowski
Jose M. Martin-Duran
Andreas Hejnol
Index 195
Dr David E.K. Ferrier leads the Evolutionary Developmental Genomics (EDGe) group in the Scottish Oceans Institute, in the School of Biology at the University of St Andrews (UK). Dr Ferriers research is focused on the interplay between genome organisation and content with the evolution of animal development. Much of his research has been concentrated on the homeobox-encoding genes, such as the Hox genes, and he has published papers on these genes in species from across a wide range of the animal kingdom.