Insect Control: Biological and Synthetic Agents - Index of

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Biochem. Physiol., doi: 10.1016/j.pestbp.2009.06.008 (Still in press). Rust, M.K., 2005. Advances in the control of Ctenocephalides felis (cat flea) on cats and dogs. Trends Parasitol. 21, 232–236. Shao, X., Li, Z., Qian, X., Xu, X., 2009. Design, synthesis, and insecticidal activities of novel analogues of neonicotinoids: replacement of nitromethylene with nitroconjugated system. J. Agric. Food Chem. 57, 951–957. Shimomura, M., Yokota, M., Ihara, M., Akamatsu, M., Sattelle, D.B., Matsuda, K., 2006. Role in the selectivity of neonicotinoids of insect-specific basic residues in loop D of the nicotinic acetylcholine receptor agonist binding site. Mol. Pharmcol. 70, 1255–1263. Smit, A.B., Syed, N.I., Schaap, D., van Minnen, J., Klumpermann, J., Kits, K.S., Lodder, H., van der Schors, R.C., van Elk, R., Sorgedrager, B., Brejc, K., Sixma, T.K., Geraerts, W.P.M., 2001. A glia-derived acetylcholine binding protein that modulates synaptic transmission. Nature 411, 261–278. Talley, T.T., Harel, M., Hibbs, R.E., Radic, Z., Tomizawa, M., Casida, J.E., Taylor, P., 2008. Atomic interactions of neonicotinoid agonists with AChBP: molecular recognition of the distinctive electronegative pharmacophore. Proc. Natl. Acad. Sci. USA 105, 7606–7611. Tan, J., Galligan, J.J., Hollingworth, R.M., 2007. Agonist actions of neonicotinoids on nicotinic acetylcholine receptors expressed by cockroach neurons. NeuroToxicology 28, 829–842. Tan, J., Salgado, V.L., Hollingworth, L.W., 2008. Neural actions of imidacloprid and their involvement in resistance in the colorado potato beetle, Leptinotarsa decemlineata (Say). Pest Manage. Sci. 64, 37–47. Thany, S.H., Lenaers, G., Raymond-Delpech, V., Sattelle, D.B., Lapied, B., 2007. Exploring the pharmacological properties of insect nicotinic acetylcholine receptors. Trends Pharmacol. Sci. 28, 14–22. Thielert, W., 2006. A unique product: the story of the imidacloprid stress shield. Pflanzenschutz-Nachrichten Bayer (English Edition) 59, 73–86. Tomizawa, M., Casida, J.E., 2005. Neonicotinoid insecticide toxicology: mechanisms and selective action. Annu. Rev. Pharmacol. Toxicol. 45, 247–268. Tomizawa, M., Casida, J.E., 2009. Molecular recognition of neonicotinoid insecticides: The determinants of life or death. Acc. Chem. Res. 42, 260–269. Tomizawa, M., Millar, N.S., Casida, J.E., 2005. Pharmacological profiles of recombinant and native insect nicotinic acetylcholine receptors. Insect Biochem. Mol. Biol. 35, 1347–1355. A3: Addendum 119 Tomizawa, M., Maltby, D., Medzihradszky, K.F., Casida, J.E., 2007a. Defining nicotinic agonist binding surface through photoaffinity labeling. Biochemistry 46, 8798–8806. Tomizawa, M., Talley, T.T., Maltby, D., Durkin, K.A., Medzihradszky, K.F., Burlingame, A.L., Taylor, P., Casida, J.E., 2007b. Mapping the exclusive neonicotinoid binding site. Proc. Natl. Acad. Sci. USA 104, 9075–9080. Tomizawa, M., Maltby, D., Talley, T.T., Durkin, K.A., Medzihradszky, K.F., Burlingame, A.L., Taylor, P., Casida, J.E., 2008. Atypical nicotinic agonist bound conformations conferring subtype selectivity. Proc. Natl. Acad. Sci. USA 105, 1728–1732. Tomizawa, M., Talley, T.T., Park, J.F., Maltby, D., Medzihradszky, K.F., Durkin, K.A., Cornejo-Bravo, J.M., Burlingame, A.L., Casida, J.E., Taylor, P., 2009. Nicotinic agonist binding site mapped by methionineand thyrosine-scanning coupled with azidochloropyridinyl photoafinity labeling. J. Med. Chem. 52, 3735–3741. Toshima, K., Kanaoka, S., Yamada, A., Tarumoto, K., Akamatsu, M., Sattelle, D.B., Matsuda, K., 2009. Combined roles of loops C and D in the interactions of a neonicotinoid insecticide imidacloprid with the alpha4beta2 nicotinic acetylcholine receptor. Neuropharmacology 56, 264–272. Unwin, N., 2005. Refined structure of the nicotinic acetylcholine receptor at 4 A ˚ resolution. J. Mol. Biol. 346, 967–989. Wakita, T., 2008. Development of new insecticide, dinotefuran. Yuki Gosei Kagaku Kyokaishi 66, 716–720. Wang, Y., Cheng, J., Qian, X., Zhong, L., 2007. Actions between neonicotinoids and key residues of insect nAChR based on an ab initio quantum chemistry study: Hydrogen bonding and cooperative p-p interaction. Bioorg. Med. Chem. 15, 2624–2630. Wenzel, U., Heine, J., Mengel, H., Erdmann, F., Schaper, R., Heine, S., Daugschiess, A., 2008. Efficacy of imidacloprid 10% moxidectin 1% (Advocate/Advantage Multi) against fleas (Ctenocephalides felis felis) on ferrets (Mustela putorius furo). Parasitol. Res. 103, 231–234. Yao, X., Song, F., Zhang, Y., Shao, Y., Li, J., Liu, Z., 2009. Nicotinic acetylcholine receptor b1 subunit from the brown planthopper, Nilaparvata lugens: A-to-I RNA editing and its possible roles in neonicotinoid sensitivity. Insect Biochem. Mol. Biol. 39, 348–354. Zhang, Y., Liu, S., Gu, J., Song, F., Yao, X., Liu, Z., 2008. Imidacloprid acts as an antagonist on insect nicotinic acetylcholine receptor containing the Y151M mutation. Neurosci. Lett. 446, 97–100.
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INSECT CONTROL BIOLOGICAL AND SYNTH
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INSECT CONTROL BIOLOGICAL AND SYNTH
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CONTENTS Preface vii Contributors i
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PREFACE When Elsevier published the
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J T Andaloro E. I. Du Pont de Nemou
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1 Pyrethroids B P S Khambay and P J
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activity. In contrast to most other
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Figure 1 Commercial and novel pyret
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Figure 2 Pyrethroids referred to in
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4-position result in almost complet
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and their primary site of action is
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Figure 4 Folded and extended confor
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aromatic rings or methyl groups by
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pyrethroids) and consequently a sec
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1998), although the precise mechani
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polymorphisms in the protein. Of th
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observed resistance to pyrethroids,
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propoxur against Culex quinquefasci
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esistance in house fly. Insect Bioc
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Shan, G.M., Hammock, B.D., 2001. De
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A1.4. Resistance The increasing num
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B A IIS4-S5 linker, IIS5 helix and
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2 Indoxacarb and the Sodium Channel
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Figure 2 Structures of pyrazoline-l
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observed that both indoxacarb and i
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deflections resulting from stresses
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Figure 8 Dihydropyrazole block appe
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potential conduction in the CNS of
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known to affect blocker affinity, w
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Figure 13 Diagrammatic representati
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that the probable mechanism of ovil
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conventional chemistries and spinos
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Clare, J.J., Tate, S.N., Nobbs, M.,
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Tsurubuchi, Y., Karasawa, A., Nagat
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R1 N N O N H indoxacarb. Thus, whil
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3 Neonicotinoid Insecticides P Jesc
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esidues, like the pyrid-3-ylmethyl
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containing neonicotinoids, and neon
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Studies were also done using compar
Page 80 and 81: Becke, 1988; Klamt, 1995) level of
Page 82 and 83: sampling using forcefield methods (
Page 84 and 85: Figure 9 Stable conformations and p
Page 86 and 87: Figure 13 Binding to putative catio
Page 88 and 89: Figure 14 Systemicity of neonicotin
Page 90 and 91: site (Kayser et al., 2002). Clothia
Page 92 and 93: Figure 20 Important pest insects ta
Page 94 and 95: Barley yellow dwarf virus vectors s
Page 96 and 97: investigate the mode of action of n
Page 98 and 99: within the desensitized state over
Page 100 and 101: the accumulation of this acid in th
Page 102 and 103: 3.8.1. Safety Profile The introduct
Page 104 and 105: Table 7 Environmental profile of co
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Page 108 and 109: imidacloprid conferring a high leve
Page 110 and 111: nAChR are comparable to the efficac
Page 112 and 113: Figure 25 Flea control achieved wit
Page 114 and 115: and the resolution of FAD was teste
Page 116 and 117: Brown, J.K., Perring, T.M., Cooper,
Page 118 and 119: In: Ishaaya, I. (Ed.), Biochemical
Page 120 and 121: Léna, C., Changeux, J.-P., 1993. A
Page 122 and 123: patterns in Colorado potato beetle
Page 124 and 125: nach Saatgutbeizung. Pflanzenschutz
Page 126 and 127: Today, photoaffinity labeling (e.g.
Page 128 and 129: for control of stinkbugs in soybean
Page 132 and 133: 4 Insect Growth- and Development-Di
Page 134 and 135: The molting process is initiated by
Page 136 and 137: Table 1 Bisacylhydrazine insecticid
Page 138 and 139: 4.2.2. Bisacylhydrazines as Tools o
Page 140 and 141: to the three EcRs with either muris
Page 142 and 143: of action of ecdysone agonists was
Page 144 and 145: thus inducing effects and symptomol
Page 146 and 147: and microsomes. Subsequently, Willi
Page 148 and 149: dipteran insects, like the midge, C
Page 150 and 151: eetle (Exomala orientalis) when app
Page 152 and 153: metabolic fate studies showed the i
Page 154 and 155: y specific proteins in signaling pa
Page 156 and 157: their reduced risk for the environm
Page 158 and 159: can be reversed by applying JH. JH
Page 160 and 161: door for a more rational approach t
Page 162 and 163: apparent that it was a bHLH-PAS and
Page 164 and 165: Table 9 Continued Bemisia tabaci (s
Page 166 and 167: Table 11 Insect control with some a
Page 168 and 169: Table 13 Ecotoxicological profile o
Page 170 and 171: Flucycloxuron Nonsystemic acaricide
Page 172 and 173: The discovery of diflubenzuron spaw
Page 174 and 175: Table 15 Environmental effects of s
Page 176 and 177: ecessive (R male S female) manner,
Page 178 and 179: esistance management programs due t
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IPS Paraconfusus lanier (Coleoptera
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larvae parasitized by Microplitis r
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Kostyukovsky, M., Chen, B., Atsmi,
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Three-dimensional quantitative stru
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Riddiford, L.M., 1994. Cellular and
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characterization of resistant clone
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Biological Approaches to Pest Contr
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M389 L308 M272 T304 T393 V404 L420
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5 Azadirachtin, a Natural Product i
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and Hemiptera and was related to ef
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eported, but this is rather nonspec
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important source of pest control at
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effects with physiological effects
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eing associated with an accumulatio
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et al., 1992). Salehzadeh et al. (2
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ehavior of Spodoptera littoralis (p
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indica A. Juss. IBH Publishing Comp
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Smith, S.L., Mitchell, M.J., 1988.
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which interact directly with azadir
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6 The Spinosyns: Chemistry, Biochem
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Table 1 Structures of the spinosyns
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Table 2 Biological activity of spin
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A large synthetic effort has gone i
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216 6: The Spinosyns: Chemistry, Bi
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Figure 4 Spinosad metabolism in avi
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A6 Addendum: The Spinosyns T C Spar
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246 A6: Addendum Scott, 2008) and i
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248 7: Bacillus thuringiensis: Mech
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A7 Addendum: Bacillus thuringiensis
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280 A7: Addendum toxins is magnitud
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Table 1 Comparative properties of s
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286 8: Mosquitocidal B. sphaericus:
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Table 4 Characteristics of various
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A8 Addendum: Bacillus sphaericus Ta
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310 A8: Addendum essential to devel
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314 9: Insecticidal Toxins from Pho
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A9 Addendum: Recent Advances in Pho
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330 A9: Addendum Lee, S.C., Stoilov
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332 10: Genetically Modified Baculo
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384 A10: Addendum cysteine protease
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388 11: Entomopathogenic Fungi and
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Zare, R., Gams, W., Culham, A., 200
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434 A11: Addendum although a number
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436 A11: Addendum Examination of ge
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440 12: Insect Transformation for U
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448 A12: Addendum genetic transform
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452 Subject Index Aphis gossypii (c
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454 Subject Index Bisacylhydrazine
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456 Subject Index Cry toxins (conti
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458 Subject Index Entomopathogenic
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460 Subject Index Homoptera molting
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462 Subject Index Kinoprene (ENSTAR
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464 Subject Index Muscle(s) sodium
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466 Subject Index Photorhabdus (con
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468 Subject Index Sodium channel bl
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470 Subject Index Toxocara cati, im
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