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Results:
1-15
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Results: 15
Authors:
Ishaaya, I
Citation: I. Ishaaya, Biochemical processes related to insecticide action: An overview, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 1-16
Authors:
Bloomquist, JR
Citation: Jr. Bloomquist, GABA and glutamate receptors as biochemical sites for insecticide action, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 17-41
Authors:
Zlotkin, E
Citation: E. Zlotkin, Insecticides affecting voltage-gated ion channels, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 43-76
Authors:
Nauen, R
Ebbinghaus-Kintscher, U
Elbert, A
Jeschke, P
Tietjen, K
Citation: R. Nauen et al., Acetylcholine receptors as sites for developing neonicotinoid insecticides, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 77-105
Authors:
Palli, SR
Retnakaran, A
Citation: Sr. Palli et A. Retnakaran, Ecdysteroid and juvenile hormone receptors: Properties and importance in developing novel insecticides, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 107-132
Authors:
Oberlander, H
Smagghe, G
Citation: H. Oberlander et G. Smagghe, Imaginal discs and tissue cultures as targets for insecticide action, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 133-150
Authors:
Altstein, M
Gilon, C
Citation: M. Altstein et C. Gilon, Insect neuropeptide antagonists: A novel approach for insect control, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 151-166
Authors:
Gringorten, JL
Citation: Jl. Gringorten, Ion balance in the lepidopteran midgut and insecticidal action of Bacillusthuringiensis, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 167-207
Authors:
Field, LM
Blackman, RL
Devonshire, AL
Citation: Lm. Field et al., Evolution of amplified esterase genes as a mode of insecticide resistance in aphids, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 209-219
Authors:
Gunning, RV
Moores, GD
Citation: Rv. Gunning et Gd. Moores, Insensitive acetylcholinesterase as sites for resistance to organophosphates and carbamates in insects: Insensitive acetylcholinesterase confers resistance in lepidoptera, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 221-238
Authors:
Sun, CN
Huang, SY
Hu, NT
Chung, WY
Citation: Cn. Sun et al., Glutathione S-transferases and insect resistance to insecticides, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 239-254
Authors:
Scott, JG
Citation: Jg. Scott, Cytochrome P450 monooxygenases and insecticide resistance: Lessons from CYP6D1, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 255-267
Authors:
Siegfried, BD
Scharf, ME
Citation: Bd. Siegfried et Me. Scharf, Mechanisms of organophosphate resistance in insects, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 269-291
Authors:
Smagghe, G
Tirry, L
Citation: G. Smagghe et L. Tirry, Insect midgut as a site for insecticide detoxification and resistance, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 293-321
Authors:
Horowitz, AR
Denholm, I
Citation: Ar. Horowitz et I. Denholm, Impact of insecticide resistance mechanisms on management strategies, BIOCHEMICAL SITES OF INSECTICIDE ACTION AND RESISTANCE, 2001, pp. 323-338
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