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Juvenile hormones and juvenoids modeling biological effects and environmental fate için kapak resmi
Başlık:
Juvenile hormones and juvenoids modeling biological effects and environmental fate
Yazar:
Devillers, J. (James), 1956- editor of compilation.
ISBN:
9781466513228
Yayın Bilgileri:
Boca Raton : CRC Press, 2013.
Fiziksel Tanımlama:
xiii, 387 p. : ill.
Seri:
QSAR in environmental and health sciences
Seri Başlığı:
QSAR in environmental and health sciences
İçerik:
ch. 1. Juvenile hormones and juvenoids : a historical survey / James Devillers -- ch. 2. Future perspectives for research on the biosynthesis of juvenile hormones and related sesquiterpenoids in arthropod endocrinology and ecotoxicology / Jerome H.L. Hui, William G. Bendena, and Stephen S. Tobe -- ch. 3. Morph-specific JH titer regulation in wing-polymorphic gryllus crickets : proximate mechanisms underlying adaptive genetic modification of JH regulation / Anthony J. Zera -- ch. 4. Soldier-specific organ developments induced by a juvenile hormone analog in a nasute termite / Kouhei Toga and Kiyoto Maekawa -- ch. 5. Roles of juvenile hormone analog methoprene in gene transcription / Xiao-Fan Zhao -- ch. 6. Modeling resistance to juvenile hormone analogs : linking evolution, ecology, and management / David W. Crowder, Peter C. Ellsworth, Steven E. Naranjo, Bruce E. Tabashnik, and Yves Carrir̈e -- ch. 7. Population dynamics models for assessing the endocrine disruption potential of juvenile hormone analogues on nontarget species / James Devillers and Hugo Devillers -- ch. 8. SAR and QSAR modeling of juvenile hormone mimics / James Devillers -- ch. 9. Using CoMFA and CoMSIA as tools in a 3D QSAR analysis of juvenile hormone agonist action in drosophila / Robert Farka? and Maja Polakovi?ov ̀-- ch. 10. Predicting highly potent juvenile hormone esterase inhibitors from 2D QSAR modeling / James Devillers, Annick Doucet-Panaye, and Jean-Pierre Doucet -- ch. 11. Receptor-guided structure-activity modeling of inhibitors of juvenile hormone epoxide hydrolases / Julio Caballero -- ch. 12. Structural studies of juvenile hormone binding proteins / Agnieszka J. Pietrzyk, Mariusz Jaskolski, and Grzegorz Bujacz -- ch. 13. In silico stereoelectronic profile and pharmacophore similarity analysis of juvenile hormone, juvenile hormone mimics (IGRs), and insect repellents may aid discovery and design of novel arthropod repellents / Apurba K. Bhattacharjee -- ch. 14. Use of multicriteria analysis for selecting candidate insecticides for vector control / James Devillers, Laurent Lagadic, Ohri Yamada, Frďřic Darriet, Robert Delorme, Xavier Deparis, Jean-Philippe Jaeg, Christophe Lagneau, Bruno Lapied, Franȯise Quiniou, and Andr ̌Yb̌akima.
Özet:
"Juvenile hormones play a key role in the control of larval development and metamorphosis of insects as well as the various aspects of the reproduction of adults. The book presents modeling approaches that can be used to study the mechanism of action of juvenile hormones (JHs) in insects and to estimate the adverse effects and the environmental fate of the manmade chemicals that mimic the actions of JHs. The text aims to provide a deeper understanding of the juvenile hormones mechanism of action, which may help to control the population of insects. Leading contributors address various topics that underscore the important role of natural compounds in the discovery and development of new human medicines"-- Provided by publisher.

"Series Introduction The correlation between the toxicity of molecules and their physicochemical properties can be traced to the nineteenth century. Indeed, in a French thesis entitled Action de l'alcool amylique sur l'organisme (Action of amyl alcohol on the body), which was presented by A. Cros before the Faculty of Medicine at the University of Strasbourg in 1863, an empirical relationship was made between the toxicity of alcohols, their number of carbon atoms, as well as their solubility. In 1875, Dujardin-Beaumetz and Audigier the first to stress the mathematical character of the relationship between the toxicity of alcohols and their chain length and molecular weight. In 1899, Hans Horst Meyer and Fritz Baum, at the University of Marburg, showed that narcosis or hypnotic activity was in fact linked to the affinity of substances to water and lipid sites within the organism. At the same time at the University of Zurich, Ernest Overton came to the same conclusion providing the foundation of the lipoid theory of narcosis. The next important step was made in the 1930s by Lazarev in St. Petersburg, who first demonstrated that different physiological and toxicological effects of molecules were correlated with their oil- water partition coefficient through formal mathematical equations in the following form: log C = a logPoil/water + b. Thus, the quantitative structure-activity relationship (QSAR) discipline was born. Its foundations were definitively fixed in the early 1960s by the seminal works contributed by C. Hansch and T. Fujita"-- Provided by publisher.
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