Email this

Print this

Serap Aksoy
Division of Epidemiology and Microbial Diseases, Yale University School of Public Health

About this book

Parasitic, bacterial and viral agents continue to challenge the welfare of humans, livestock, wild life and plants worldwide. The public health impact and financial consequences of these diseases are particularly hard on the already overburdened economies of developing countries especially in the tropics. Many of these disease agents utilize insect hosts (vectors) to achieve their transmission to mammals. In the past, these diseases were largely controlled by insecticide-based vector reduction strategies. Now, many of these diseases have reemerged in the tropics, recolonizing their previous range, and expanding into new territories previously not considered to be endemic. Habitat change, irrigation practices, atmospheric and climate change, insecticide and drug resistance as well as increases in global tourism, human traffic and commercial activities, have driven the reemergence and spread of vector borne diseases. While these diseases can be controlled through interventions aimed at both their vertebrate and invertebrate hosts, no effective vaccines exist, and only limited therapeutic prospects are available for their control in mammalian hosts. Molecular technologies such as transgenesis, which is the subject of this book, stand to increase the toolbox and benefit disease management strategies.

Table of contents

1. Perspectives on the State of Insect Transgenics
David A. O'Brochta and Alfred M. Handler

2. Alphavirus Transducing Systems
Brian D. Foy and Ken E. Olson

3. Paratransgenesis Applied for Control of Tsetse Transmitted Sleeping Sickness
Serap Aksoy, Brian Weiss and Geoffrey Attardo

4. Bacteria of the Genus Asaia: A Potential Paratransgenic Weapon Against Malaria
Guido Favia, Irene Ricci, Massimo Marzorati, Ilaria Negri, Alberto Alma, Luciano Sacchi, Claudio Bandi, and Daniele Daffonchio

5. Proposed Uses of Transposons in Insect and Medical Biotechnology
Peter W. Atkinson

6. The Yin and Yang of Linkage Disequilibrium: Mapping of Genes and Nucleotides Conferring Insecticide Resistance in Insect Disease Vectors
William C. Black IV, Norma Gorrochetegui-Escalante, Nadine P. Randle
and Martin J. Donnelly

7. Impact of Technological Improvements on Traditional Control Strategies
Mark Q. Benedict and Alan S. Robinson

8. Insect Population Suppression Using Engineered Insects
Luke Alphey, Derric Nimmo, Sinead O'Connell and Nina Alphey

9. Wolbachia-Based Technologies for Insect Pest Population Control
Kostas Bourtzis

10. Using Predictive Models to Optimize Wolbachia-Based Strategies for Vector-Borne Disease Control
Jason L. Rasgon

11. Modifying Insect Population Age Structure to Control Vector-Borne Disease
Peter E. Cook, Conor J. McMeniman and Scott L. O'Neill

12. Technological Advances to Enhance Agricultural Pest Management
Thomas A. Miller, Carol R. Lauzon and David J. Lampe

13. Applications of Mosquito Ecology for Successful Insect Transgenesis-Based Disease Prevention Programs
Thomas W. Scott, Laura C. Harrington, Bart G. J. Knols and Willem Takken