The book provides a fascinating overview about current and sophisticated developments in applied entomology that are powered by molecular biology and that can be summarized under a novel term: insect biotechnology. By analogy with the application of powerful molecular biological tools in medicine (red biotechnology), plant protection (green biotechnology) and industrial processing (white biotechnology), insect biotechnology (yellow biotechnology) provides novel tools and strategies for human welfare and nutrition. Insect Biotechnology has emerged as a prospering discipline with considerable economic potential, and encompasses the use of insect model organisms and insect-derived molecules in medical research as well as in modern plant protection measures.

Insect derived enzymes - a treasure for white biotechnology and food biotechnology. Insect-derived chitinases. Cellulases from insects. Optimization of Insect Cell Based Protein Production Processes - Expression Systems, Online Monitoring, Scale-Up. Insect antenna-based biosensors for in situ detection of volatiles. Y-linked markers for improved population control of the tephritid fruit fly pest, Anastrepha suspensa. Transgenic Approaches to Western Corn Rootworm Control. Tribolium castaneum as a model for high-throughput RNAi screening. Aphid-proof plants: Biotechnology-based approaches for aphid control.

Utility of Insects for Studying Human Pathogens and Evaluating New Antimicrobial Agents, by Yan Wang, De-Dong Li, Yuan-Ying Jiang and Eleftherios Mylonakis. Galleria Mellonella as a Model Host to Study Gut Microbe Homeostasis and Brain Infection by the Human Pathogen Listeria Monocytogenes, by Krishnendu Mukherjee, Ramya Raju, Rainer Fischer and Andreas Vilcinskas. Drosophila as a Model to Study Metabolic Disorders, by Julia Hoffmann, Renja Romey, Christine Fink and Thomas Roeder. The Fruit Fly Drosophila melanogaster as a Model for Aging Research, by Annely Brandt and Andreas Vilcinskas. Drosophila and the Hallmarks of Cancer, by Theodoulakis Christofi and Yiorgos Apidianakis. The red flour beetle Tribolium castaneum as a model to monitor food safety and functionality, by Stefanie Grunwald, Iris V. Adam, Ana-Maria Gurmai, Ludmila Bauer, Michael Boll, and Uwe Wenzel. Identification and Bioanalysis of Natural Products from Insect Symbionts and Pathogens, by Alexander O. Brachmann and Helge B. Bode. Antiparasitic Peptides, by Jette Pretzel, Franziska Mohring, Stefan Rahlfs and Katja Becker.

Most people know of aphids as garden pests, infesting the soft green tissues of plants in vast numbers and killing them by sucking out the sap. Indeed, among the 4000 or so known species of aphids about 250 are pests, and in temperate regions several are economically important agricultural pests that damage crops directly during feeding or act as vectors for plant pathogens. But aphids are also important model organisms in evolutionary biology and ecology because they combine a number of unique features such as complex life cycles involving the development of morphological distinct phenotypes (polyphenism), sexual and asexual reproduction strategies and changes of host plants. Aphids can also be regarded as holobionts because they are colonized by obligate and facultative microbes which enable them to feed exclusively on phloem sap and influence their resistance against pathogens, parasitoids or environmental stress. This book combines fundamental information about aphids with chapters addressing state-of-the-art research in topics such as aphid-related phylogeny, genome biology, epigenetics and chemical ecology.

Most people know of aphids as garden pests, infesting the soft green tissues of plants in vast numbers and killing them by sucking out the sap. Indeed, among the 4000 or so known species of aphids about 250 are pests, and in temperate regions several are economically important agricultural pests that damage crops directly during feeding or act as vectors for plant pathogens. But aphids are also important model organisms in evolutionary biology and ecology because they combine a number of unique features such as complex life cycles involving the development of morphological distinct phenotypes (polyphenism), sexual and asexual reproduction strategies and changes of host plants. Aphids can also be regarded as holobionts because they are colonized by obligate and facultative microbes which enable them to feed exclusively on phloem sap and influence their resistance against pathogens, parasitoids or environmental stress. This book combines fundamental information about aphids with chapters addressing state-of-the-art research in topics such as aphid-related phylogeny, genome biology, epigenetics and chemical ecology.

Insect derived enzymes – a treasure for white biotechnology and food biotechnology. Insect-derived chitinases. Cellulases from insects. Optimization of Insect Cell Based Protein Production Processes - Expression Systems, Online Monitoring, Scale-Up. Insect antenna-based biosensors for in situ detection of volatiles. Y-linked markers for improved population control of the tephritid fruit fly pest, Anastrepha suspensa. Transgenic Approaches to Western Corn Rootworm Control. Tribolium castaneum as a model for high-throughput RNAi screening. Aphid-proof plants: Biotechnology-based approaches for aphid control.

Utility of Insects for Studying Human Pathogens and Evaluating New Antimicrobial Agents, by Yan Wang, De-Dong Li, Yuan-Ying Jiang and Eleftherios Mylonakis. Galleria Mellonella as a Model Host to Study Gut Microbe Homeostasis and Brain Infection by the Human Pathogen Listeria Monocytogenes, by Krishnendu Mukherjee, Ramya Raju, Rainer Fischer and Andreas Vilcinskas. Drosophila as a Model to Study Metabolic Disorders, by Julia Hoffmann, Renja Romey, Christine Fink and Thomas Roeder. The Fruit Fly Drosophila melanogaster as a Model for Aging Research, by Annely Brandt and Andreas Vilcinskas. Drosophila and the Hallmarks of Cancer, by Theodoulakis Christofi and Yiorgos Apidianakis. The red flour beetle Tribolium castaneum as a model to monitor food safety and functionality, by Stefanie Grunwald, Iris V. Adam, Ana-Maria Gurmai, Ludmila Bauer, Michael Boll, and Uwe Wenzel. Identification and Bioanalysis of Natural Products from Insect Symbionts and Pathogens, by Alexander O. Brachmann and Helge B. Bode. Antiparasitic Peptides, by Jette Pretzel, Franziska Mohring, Stefan Rahlfs and Katja Becker.

The book provides a fascinating overview about current and sophisticated developments in applied entomology that are powered by molecular biology and that can be summarized under a novel term: insect biotechnology. By analogy with the application of powerful molecular biological tools in medicine (red biotechnology), plant protection (green biotechnology) and industrial processing (white biotechnology), insect biotechnology (yellow biotechnology) provides novel tools and strategies for human welfare and nutrition. Insect Biotechnology has emerged as a prospering discipline with considerable economic potential, and encompasses the use of insect model organisms and insect-derived molecules in medical research as well as in modern plant protection measures.