1st Edition

Computational Design of Chemicals for the Control of Mosquitoes and Their Diseases

Edited By James Devillers Copyright 2018
    484 Pages 15 Color & 315 B/W Illustrations
    by CRC Press

    482 Pages 15 Color & 315 B/W Illustrations
    by CRC Press

    482 Pages 15 Color & 315 B/W Illustrations
    by CRC Press

    There is a compelling need for new drugs and efficient treatments against mosquito-borne diseases. Environmentally safe, but effective insecticides that address the problems of resistance are required. Computational Design of Chemicals for the Control of Mosquitoes and Their Diseases explains how the search for new substances effective against mosquitoes and their diseases has benefited from the use of in silico techniques. QSAR modeling is suited to identify the key structural features and/or physicochemical properties explaining an activity and to propose candidate molecules for further evaluation by laboratory tests. Homology modeling is useful to approximate the 3D structure of proteins of interest. Pharmacophore modeling is a powerful means to capture the chemical features responsible for an activity and to identify new potentially active compounds via the virtual screening of databases. Fugacity modeling and a wealth of other modeling paradigms are useful for risk assessment in vector borne disease control.

    Contents

    Series Introduction

    Acknowledgments

    Contributors

    Chapter 1 Repurposing Insecticides and Drugs for the Control of Mosquitoes and their Diseases
    James Devillers

    Chapter 2 Insect Olfactory System as the Target for Computer-Aided Design of Mosquito Repellents
    Polina V. Oliferenko, Alexander A. Oliferenko, Gennady Poda, Girinath G. Pillai, Ulrich R. Bernier, Natasha M. Agramonte, and Kenneth J. Linthicum

    Chapter 3 OBP-Structure-Aided Repellent Discovery: An Emerging Tool towards the Prevention of Mosquito-Borne Diseases
    Spyros E. Zographos, Elias Eliopoulos, Trias Thireou, and Katerina E. Tsitsanou

    Chapter 4 Molecular Topology as a Powerful Tool for Searching new Repellents and Novel Drugs against Diseases Transmitted by Mosquitoes
    Ramón García-Domenech, Riccardo Zanni, María Galvez-Llompart, and Jorge Galvez

    Chapter 5 Pharmacophore modeling applied to mosquito borne diseases
    Apurba K. Bhattacharjee

    Chapter 6 Comparative MIA-QSAR Proteochemometric Analysis of NS3 Protease Substrates in Dengue Virus
    Mariene H. Duarte, Stephen J. Barigye, and Matheus P. Freitas

    Chapter 7 Mosquito-Active Cry d -Endotoxins from Bacillus thuringiensis subsp. israelensis: Structural Insights into the Toxin-Induced Pore Architecture
    Chalermpol Kanchanawarin and Chanan Angsuthanasombat

    Chapter 8 Structural Scaffolding for New Mosquito Larvicides
    Kunal Roy and Rahul B. Aher

    Chapter 9 SAR and QSAR Modeling of Structurally Diverse Juvenoids Active on Mosquito Larvae
    James Devillers, Annick Doucet-Panaye, and Jean-Pierre Doucet

    Chapter 10 SAR predictions of benzoylphenylurea chitin synthesis inhibitors active on larvae of Aedes aegypti
    James Devillers, Annick Doucet-Panaye, Jean-Pierre Doucet, Armand Lattes, Hubert Matondo, Christophe Lagneau, Sébastien Estaran, Marie-Michelle Clémente, and André Yébakima

    Chapter 11 Predicting the toxicity of piperidines against female adults of Aedes aegypti
    James Devillers, Annick Doucet-Panaye, Jean-Pierre Doucet, Christophe Lagneau, Sébastien Estaran, and André Yébakima

    Chapter 12 Molecular modeling studies of the inhibition by natural compounds of a mosquito detoxification system, implication in mosquito vector control
    Pornpimol Rongnoparut, Aruna Prasopthum, and Phisit Pouyfung

    Chapter 13 Critical review of models for exposure assessment of residents and bystanders to adulticides used in mosquito control
    James Devillers

    Chapter 14 Occupational exposure scenarios and modeling in vector control
    James Devillers

    Chapter 15 Use of insecticides indoor for the control of mosquitoes: Exposure scenarios and modeling
    James Devillers

    Index

    Biography

    PhD in ecotoxicology (1987, University Lyon I, France). Head of CTIS. Publications: 245 peer-reviewed papers and book chapters. 15 authored/edited books. Founding editor (1993) and editor-in-chief (1993 to present) of the journal SAR and QSAR in Environmental Research (Gordon & Breach Science Publishers and now Taylor & Francis). Co-Editor of the journal Toxicology Methods (Taylor & Francis, 1997 to 2002). Member of the editorial board of: Journal of Biological Systems (World Scientific, 1995 to 1997). Toxicology Mechanisms and Methods (Taylor & Francis, 2002 to 2009). Current Bioactive Compounds (Bentham Science Publishers, 2007 to 2014). Ecological Modelling (Elsevier, 1996 to present). Xenobiotica (Informa Healthcare, 1995 to present). Toxics (MDPI AG, 2013 to present). Organization or co-organization of 14 international meetings.