Insect Control: Biological and Synthetic Agents - Index of
Insect Control: Biological and Synthetic Agents - Index of
Insect Control: Biological and Synthetic Agents - Index of
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Fluvalinate, 5fF<br />
pyrethroids, 6tT<br />
Foliar application, neonicotinoid<br />
insecticides, 83<br />
Forestry, Cry toxins applications, 268<br />
Forosamine sugar, 236<br />
F protein<br />
baculovirus insect control, 359<br />
Franklienella occidentalis<br />
neonicotinoid insecticides resistance, 97<br />
Fuki functions<br />
acetamiprid, 74fF<br />
clothianidin, 74fF<br />
imidacloprid, 74fF<br />
ring system vs. noncyclic structure, 73,<br />
74fF<br />
Fulmethrin, 5fF<br />
Fungal epizootics, 398<br />
Furia, 390<br />
Fusarium, 400<br />
G<br />
GABA receptors<br />
spinosyns, mode <strong>of</strong> action, 228fF<br />
b-Galactosidase<br />
baculovirus insect control, 362<br />
Galleria melonella<br />
azadirachtin effects, 194<br />
bisacylhydrazine effects, 134–135<br />
bisacylhydrazine, relative affinity,<br />
131tT<br />
entomopathogenic fungi, toxin<br />
production, hirsutellin A, 400<br />
20-hydroxyecdysone (20E), relative<br />
affinity, 131tT<br />
scorpion toxins, 342<br />
Gelatinase A, human, 339–340<br />
Gene(s)<br />
baculovirus insect control, 366<br />
Gene silencing, 337<br />
Gene switches, 337<br />
nonsteroidal ecdysone agonist<br />
mammalian systems, 143<br />
noninsecticide applications, 142<br />
plants, 144<br />
Gene therapy<br />
baculovirus insect control safety, 362<br />
Genetic modification<br />
baculovirus fitness, 363<br />
crop plants see Transgenic crops<br />
Genomic variants, baculovirus insect<br />
control, 366<br />
Genotyping, entomopathogenic<br />
fungi, 398<br />
Geocoris punctipes<br />
baculovirus insect control, 363<br />
indoxacarb metabolism, 39<br />
indoxacarb safety, 51<br />
GEO mosquito midgut, mosquitocidal<br />
Bacillus sphaericus resistance, 297<br />
Germany, Upper Rhine Valley, Cry toxins<br />
applications, 268–269<br />
gfp gene, 358<br />
Gibellula, 391–392<br />
Glossina morsitans<br />
juvenile hormone analog insecticide,<br />
151, 154tT<br />
pyriproxifen, 151<br />
Glutathione-S-transferase (GST)<br />
pyrethroid resistance, 19<br />
Glycosylation<br />
three-domain Cry toxins, 258<br />
Glycosylphosphatidylinositol (GPI),<br />
291–292<br />
GP64 (envelope fusion protein)<br />
baculovirus insect control, 359<br />
Granuloviruses (GV)<br />
ecdysteroid UDP-glucosyltransferase,<br />
356tT<br />
insect control, 331<br />
Green fluorescent protein (GFP)<br />
genes (gfp), 358<br />
transformation, use in insect control,<br />
439–440<br />
H<br />
Haemonchus contortus<br />
neonicotinoid insecticides, 99–100<br />
Hal<strong>of</strong>enozide, 124–125<br />
activity spectrum, 138<br />
structure, 123fF, 124–125, 125tT<br />
Haltichella rhyacioniae, 51<br />
Hansch-style multiple regression<br />
analysis, 238<br />
Helicoverpa armigera<br />
azadirachtin effects, 192–193<br />
baculovirus bioinsecticides,<br />
331–332<br />
cirumventing resistance<br />
diversity, 24<br />
negative cross-resistance, 23–24<br />
enhancin, 338–339<br />
entomopathogenic fungi, 403<br />
indoxacarb resistance, 52–53<br />
insecticide resistance, 52–53<br />
pyrethroids, 19<br />
neonicotinoid insecticides, 83<br />
pyrethroids<br />
metabolic resistance, 16<br />
cytochrome P450<br />
monooxygenases, 18–19<br />
resistance, 19, 22<br />
Helicoverpa assaulta<br />
azadirachtin, 192–193<br />
Helicoverpa, indoxacarb metabolism,<br />
38fF<br />
Helicoverpa punctigera<br />
entomopathogenic fungi, 403<br />
Helicoverpa zea<br />
baculovirus insect control<br />
PBAN, 335<br />
neonicotinoid insecticides<br />
cotton, 82<br />
history, 62<br />
pyrethroids, 16<br />
spinosyns properties, 228<br />
Heliothis<br />
indoxacarb metabolism, 38fF<br />
Subject <strong>Index</strong> 459<br />
Heliothis armigera<br />
indoxacarb, 50–51<br />
spinosyn effects, 228<br />
Heliothis virescens<br />
azadirachtin effects, 193<br />
Bacillus thuringiensis resistance<br />
mechanism, 268<br />
receptor binding, 266–267, 267fF<br />
bisacylhydrazine effects, 128<br />
ecdysone receptor (EcR), 124<br />
ecdysone receptors, 124<br />
insecticide resistance<br />
indoxacarb, 52–53<br />
pyrethroids, 19<br />
juvenile hormone analog insecticides,<br />
152tT, 155tT<br />
juvenile hormone esterase, baculovirus,<br />
335–336<br />
RNA interference (RNAi), 337–338<br />
stability, in vivo, 336<br />
molting hormone, 124<br />
neonicotinoid insecticides, 86<br />
cotton, 82<br />
nonsteroidal ecdysone agonist, 144<br />
penetration rate, 219tT<br />
pyrethroids, metabolic pathways, 16<br />
spinosad cross-resistance, 234tT<br />
spinosyns, 228<br />
cross-resistance, 232<br />
metabolism, 213–215, 219fF<br />
poisoning symptoms, 220–221<br />
quantitative structure–activity<br />
relationship, 238<br />
spinosyns–lepidoptera, 228–229<br />
tetracycline modifications, 236<br />
tri-O-methyl-rhamnose sugar,<br />
237–238<br />
three-domain Cry toxins receptor<br />
identification, 261–262<br />
toxicities, topical, 219tT<br />
Heliothis zea<br />
juvenile hormone analog insecticide,<br />
155tT<br />
pyrethroid resistance mechanisms, 19<br />
Hematobia irritans<br />
pyrethroid resistance, 17<br />
Hemolymph<br />
bisacylhydrazine effects, 135<br />
spinosyns insecticidal concentration,<br />
215<br />
Hermes element<br />
transposition, 440–441<br />
Heterocyclic N-substituents, isosteric<br />
alternatives, 73, 74fF<br />
Hexaflumuron, 158tT<br />
High-performance liquid chromatography<br />
(HPLC)<br />
Photorhabdus, insecticidal toxins, 314<br />
Hippodamia convergens, 363<br />
Hirsutella, 391–392<br />
Hirsutella thompsonii, 400<br />
Hirsutellin A, 400<br />
Hitchhking, transformation, use in insect<br />
control, 443<br />
Homing endonuclease, 449
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