Book contents
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 A brief history of Lepidoptera as model systems
- 2 Genetics of the silkworm: revisiting an ancient model system
- 3 Mobile elements of lepidopteran genomes
- 4 Lepidopteran phytogeny and applications to comparative studies of development
- 5 A summary of lepidopteran embryogenesis and experimental embryology
- 6 Roles of homeotic genes in the Bombyx body plan
- 7 Chorion genes: an overview of their structure, function, and transcriptional regulation
- 8 Chorion genes: molecular models of evolution
- 9 Regulation of the silk protein genes and the homeobox genes in silk gland development
- 10 Control of transcription of Bombyx mori RNA polymerase III
- 11 Hormonal regulation of gene expression during lepidopteran development
- 12 Lepidoptera as model systems for studies of hormone action on the central nervous system
- 13 Molecular genetics of moth olfaction: a model for cellular identity and temporal assembly of the nervous system
- 14 Molecular biology of the immune response
- 15 Engineered baculoviruses: molecular tools for lepidopteran developmental biology and physiology and potential agents for insect pest control
- 16 Epilogue: Lepidopterans as model systems – questions and prospects
- References
- Index
11 - Hormonal regulation of gene expression during lepidopteran development
Published online by Cambridge University Press: 23 November 2009
- Frontmatter
- Contents
- List of contributors
- Preface
- 1 A brief history of Lepidoptera as model systems
- 2 Genetics of the silkworm: revisiting an ancient model system
- 3 Mobile elements of lepidopteran genomes
- 4 Lepidopteran phytogeny and applications to comparative studies of development
- 5 A summary of lepidopteran embryogenesis and experimental embryology
- 6 Roles of homeotic genes in the Bombyx body plan
- 7 Chorion genes: an overview of their structure, function, and transcriptional regulation
- 8 Chorion genes: molecular models of evolution
- 9 Regulation of the silk protein genes and the homeobox genes in silk gland development
- 10 Control of transcription of Bombyx mori RNA polymerase III
- 11 Hormonal regulation of gene expression during lepidopteran development
- 12 Lepidoptera as model systems for studies of hormone action on the central nervous system
- 13 Molecular genetics of moth olfaction: a model for cellular identity and temporal assembly of the nervous system
- 14 Molecular biology of the immune response
- 15 Engineered baculoviruses: molecular tools for lepidopteran developmental biology and physiology and potential agents for insect pest control
- 16 Epilogue: Lepidopterans as model systems – questions and prospects
- References
- Index
Summary
Introduction
After the formation of the early embryo, most of insect development is governed by the hormonal milieu, beginning with the formation of the first instar larva within the egg. Whether maternally derived hormonal signals are also important during early embryogenesis is still unclear. Much is known about the hormones involved and the regulation of their synthesis and secretion, especially in the Lepidoptera (see Gilbert, 1989, Gupta, 1990, and Ohnishi and Ishizaki, 1990, for recent reviews), and about the role of these hormones in directing development on the organismal and cellular levels (see Riddiford, 1985, for a review). Yet how these hormones act at the molecular level is only just beginning to unfold, principally through studies on Drosophila melanogaster.
This chapter focuses on the present state of knowledge of the hormonal regulation of gene expression in Lepidoptera. It begins with an overview of the endocrine basis of molting, metamorphosis, and reproduction in Lepidoptera and a description of the mode of action of the insect developmental hormones. This is followed by a short description of the systems in which particular genes have been cloned and studies of their hormonal regulation have been initiated. At the end, focus is on the hormone receptors and their actions, in both Drosophila and Lepidoptera, and questions for the future are posed.
Hormonal control of molting and metamorphosis
Because insects have a rigid exoskeleton, they must molt and shed this skeleton in order to increase in size and to change their form at metamorphosis.
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- Molecular Model Systems in the Lepidoptera , pp. 293 - 322Publisher: Cambridge University PressPrint publication year: 1995
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