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Main description:
Man as a biological species and as a member of the community of organisms that has evolved over the billions ofyears on this planet has to face competition for his resources in the same way as any other species. In the course of evolution organisms have developed a fascinating variety of weapons, techniques and strategies in this competitive scramble for food and other essential resources and in se1f-defense against parasitism and predation. Among these, the biosynthesis of toxic molecules and their appropriate delivery in interspecific encounters has proved to be one of the most successful natural weapons and has been demonstrated in every branch of the evolutionary tree of all extant species. It is interesting to note that in this process of generating toxic molecules both natural se1ection by evolutionary processes and screening techniques by chemical industry have produced compounds with very similar target sites. The most potent of these compounds interfere with the normal signalling of nerve cells.
Saxitoxin, tetrodotoxin, batracho- toxin, grayanotoxin, veratridine, aconitin, sea anemone venom and scorpion toxin are natural poisons which interfere with the same membrane bound protein as many potent synthetic insecticides such as DDT and the pyrethroids: the voltage-gated Na + channe1 in the nerve cell membrane. In several cases natural toxins have direct1y provided lead structures for successful chemical synthesis programmes in the insec- ticide industry. Eserine, nereistoxin and pyrethrum are outstanding examples.
Contents:
The Challenge of Finding New Insecticides for a Mature Market.- The Biochemical Mode of Action of Insecticides.- Can Mode of Action Studies Guide Chemical Synthesis?.- Prospects of Exploitation of Insect Antijuvenile Hormones for Selective Insect Control.- Insecticides as Inhibitors of Respiration.- The Action of Spider Toxins on the Insect Nerve-Muscle System.- Interaction of Low-Molecular-Weight Effectors with Components of the Nicotinic Cholinergic Synapse: Triphenylmethylphosphonium and Phencyclidine as Inhibitors of Acetylcholinesterase.- Neurochemistry of Cholinergic Synapses in Insects.- Glutamate and GABA Receptors of Insect Muscles: Biochemical Identification and Interactions with Insecticides.- Biogenic Amines and Second Messenger Systems in Insects.- Neuropeptides in Insects: Possible Leads to New Control Methods.
PRODUCT DETAILS
Publisher: Springer (Springer-Verlag Berlin and Heidelberg GmbH & Co. K)
Publication date: November, 2011
Pages: 176
Weight: 315g
Availability: Available
Subcategories: Biochemistry
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