Molecular Biology and Genetics of the Lepidoptera

Name: Molecular Biology and Genetics of the Lepidoptera
Brand: Taylor & Francis Inc
SKU: 9781420060140
Price: 291.4 EUR
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advanced lepidoptera genetic research

Antennal Lobe

Antheraea Pernyi

BAC Contig

BAC Library

bombyx

Butterfly Eyes

Butterfly Wing Patterns

candidate

Category=PSAK

Category=PSAX

Category=PSD

Circadian Clock

circadian clocks

Codling Moth

Dorsal Eye

Entomopathogenic Fungi

eq_bestseller

eq_isMigrated=1

eq_isMigrated=2

eq_nobargain

eq_non-fiction

eq_science

esterase

evolutionary entomology

genomic techniques

Helicoverpa

heliothis

hormone

Host Range

insect immune response

insect molecular physiology

Insecticide Resistance

juvenile

Juvenile Hormone Esterase

Juvenile Hormone Titers

Larval Performance

Lepidoptera

Lepidopteran Chemoreceptors

Lepidopteran Pest Management

lepidopteran sex chromosomes

Linkage Map

manduca

Model System

molecular genetics

mori

moths and butterflies

Odorant Receptors

Oviposition Preference

pest resistance genetics

Polydnavirus-Carrying Parasitoids

PPO Activation

RAPD Marker

Samia Cynthia Ricini

sensory system development

Sex Chromosome Systems

Sex Determination

Sex Pheromone

sexta

Silkworm Genetics

sterile insect technique

Target Site Resistance

virescens

Wing Color Patterns

Wing Patterns

Product details

ISBN 9781420060140
Weight: 839g
Dimensions: 178 x 254mm
Publication Date: 01 Sep 2009
Publisher: Taylor & Francis Inc
Publication City/Country: US
Product Form: Hardback

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Numerous and charismatic, the Lepidoptera is one of the most widely studied groups of invertebrates. Advances in molecular tools and genomic techniques have reduced the need for large sizes and mass-rearing, and lepidopteran model systems are increasingly used to illuminate broad-based experimental questions as well as those peculiar to butterflies and moths. Molecular Biology and Genetics of the Lepidoptera presents a wide-ranging collection of studies on the Lepidoptera, treating them as specialized insects with distinctive features and as model systems for carrying out cutting-edge research. Leading researchers provide an evolutionary framework for placing moths and butterflies on the Tree of Life.

The book covers progress in deciphering the silkworm genome and unraveling lepidopteran sex chromosomes. It features new information on sex determination, evolution, and the development of butterfly wing patterns, eyes, vision, circadian clocks, chemoreceptors, and sexual communication. The contributors discuss the genetics and molecular biology of plant host range and prospects for controlling the major crop pest genus Helicoverpa. They also explore the rise of insecticide resistance, the innate immune response, lepidopteran minihosts for testing human pathogens and antibiotics, and the use of intrahemocoelic toxins for control. The book concludes with coverage of polyDNA virus-carrying parasitoid wasps, and the cloning of the first virus resistance gene in the silkworm.

Understanding the biology and genetics of butterflies and moths may lead to new species-selective methods of control, saving billions of dollars in pesticide use and protecting environmental and human health—making the sections on strategies for pest management extremely important. This book will open up new paths to the research literature for a broad audience, including entomologists, evolutionary and systematic biologists, geneticists, physiologists, biochemists, and molecular biologists.

Marian R. Goldsmith, Frantisek Marec