Comparative toxicity,absorption, and metabolism of chlorpyrifos and its dimethyl homologue in methyl parathion-resistant and -susceptible tobacco budworms     

C.J. Whitten  D.L. Bull 《Pesticide biochemistry and physiology》1974,4(3):266-274

Chlorpyrifos (Dowco 179) and its dimethyl homologue, chlorpyrifosmethyl (Dowco 214), were used to study the influence of the O,O-dialkyl group of organophosphorus insecticides on toxicity, absorption, and metabolism among larvae of the tobacco budworm [Heliothis virescens (F.)] from strains that were resistant (R) and susceptible (S) to methyl parathion. In toxicity tests, chlorpyrifos and chlorpyrifosmethyl were more toxic than methyl parathion to 3rd-stage R larvae but less toxic to S larvae. Chlorpyrifosmethyl was more toxic (3–4 ×) than chlorpyrifos to both strains of larvae, and the results of absorption studies indicated that the toxicity differential of the homologues may be explained in part by the more rapid absorption of the dimethyl form. Studies of the in vivo metabolism of both Dowco compounds indicated that each was degraded mainly by the cleavage of the pyridylphosphate linkage. In vitro tests demonstrated that the NADPH-dependent microsomal oxidases were of primary importance in detoxification, while glutathione (GSH)-dependent mechanisms (aryl- and alkyltransferases) present in the soluble cell fractions were of lesser importance. O-dealkylation occurred only with chlorpyrifosmethyl. The R larvae demonstrated greater capability in detoxifying both compounds in the comparative in vivo and in vitro studies of metabolism, but the differences were more apparent during the 5th instar than during the 3rd instar.  相似文献   

Microsomal sulfoxidation of phorate in the fall armyworm,Spodoptera frugiperda (J. E. Smith)     

S.J. Yu 《Pesticide biochemistry and physiology》1985,23(2):273-281

Microsomal sulfoxidation in fall armyworm (Spodoptera frugiperda) larvae was examined using phorate as substrate. The system required NADPH and was inhibited by CO and by piperonyl butoxide. Sulfoxidase activity was found in the alimentary canal, fat body, and Malpighian tubules, with the midgut being the most active. Microsomal substrates such as aldrin, heptachlor, biphenyl, and methyl parathion significantly inhibited the enzyme activity whereas p-nitroanisole and p-choloro-N-methylaniline had no effect. Enzyme activity increased during larval development, reaching a maximum shortly before pupation. Allelochemicals (monoterpenes, indoles, and flavones), drugs (phenobarbital and 3-methylcholanthrene), and host plants (corn cotton, parsnip, and parsley) significantly increased the enzyme activity. Increased phorate sulfoxidation through enzyme induction was found to decrease oral toxicity of phorate to the larvae. Analyses of internal insecticide revealed that, at various intervals, induced larvae retained less phorate and its oxidative metabolites than the controls. It was concluded that induction of phorate sulfoxidase activity results in an overall increase in the rate of phorate detoxication in this insect.  相似文献   

Mechanisms of resistance to diflubenzuron in the house fly, Musca domestica (L.)     

Gajanan D. Pimprikar  George P. Georghiou 《Pesticide biochemistry and physiology》1979,12(1):10-22

The mechanisms of resistance to the chitin synthesis inhibitor diflubenzuron were investigated in a diflubenzuron-selected strain of the house fly (Musca domestica L.) with > 1000 × resistance, and in an OMS-12-selected strain [O-ethyl O-(2,4-dichlorophenyl)phosphoramidothioate] with 380 × resistance to diflubenzuron. In agreement with the accepted mode of action of diflubenzuron, chitin synthesis was reduced less in larvae of the resistant (R) than of a susceptible (S) strain. Cuticular penetration of diflubenzuron into larvae of the R strains was about half that of the S. Both piperonyl butoxide and sesamex synergized diflubenzuron markedly in the R strains, indicating that mixed-function oxidase enzymes play a major role in resistance. Limited synergism by DEF (S,S,S-tributyl phosphorotrithioate) and diethylmaleate indicated that esterases and glutathione-dependent transferases play a relatively small role in resistance. Larvae of the S and R strains exhibited a similar pattern of in vivo cleavage of ³H- and ¹⁴C-labeled diflubenzuron at N₁C₂ and N₁C₁ bonds. However, there were marked differences in the amounts of major metabolites produced: R larvae metabolized diflubenzuron at considerably higher rates, resulting in 18-fold lower accumulation of unmetabolized diflubenzuron by comparison with S larvae. Polar metabolites were excreted at a 2-fold higher rate by R larvae. The high levels of resistance to diflubenzuron in R-Diflubenzuron and R-OMS-12 larvae are due to the combined effect of reduced cuticular penetration, increased metabolism, and rapid excretion of the chemical.  相似文献   

Mechanism of resistance to bensulfuron-methyl in Alisma plantago-aquatica biotypes from Portuguese rice paddy fields   总被引：1，自引：0，他引：1  

I M CALHA  M D OSUNA  C SERRA  I MOREIRA  R DE PRADO  & F ROCHA 《Weed Research》2007,47(3):231-240

Two Alisma plantago‐aquatica biotypes resistant to bensulfuron‐methyl were detected in rice paddy fields in Portugal’s Mondego (biotype T) and Tagus and Sorraia (biotype Q) River valleys. The fields had been treated with bensulfuron‐methyl‐based herbicide mixtures for 4–6 years. In order to characterize the resistant (R) biotypes, dose–response experiments, absorption and translocation assays, metabolism studies and acetolactate synthase (ALS) activity assays were performed. There were marked differences between R and susceptible (S) biotypes, with a resistance index (ED₅₀R/S) of 500 and 6.25 for biotypes Q and T respectively. Cross‐resistance to azimsulfuron, cinosulfuron and ethoxysulfuron, but not to metsulfuron‐methyl, imazethapyr, bentazone, propanil and MCPA was demonstrated. No differences in the absorption and translocation of ¹⁴C‐bensulfuron‐methyl were found between the biotypes studied. Maximum absorption attained 1.12, 2.02 and 2.56 nmol g⁻¹ dry weight after 96 h incubation with herbicide, for S, Q and T biotypes respectively. Most of the radioactivity taken up by the roots was translocated to shoots. Bensulfuron‐methyl metabolism in shoots was similar in all biotypes. The R biotypes displayed a higher level of ALS activity than the S biotype, both in the presence and absence of herbicide and the resistance indices (IC₅₀R/S) were 20 197 and 10 for biotypes Q and T respectively. These data confirm for the first time that resistance to bensulfuron‐methyl in A. plantago‐aquatica is target‐site‐based. In practice, to control target site R biotypes, it would be preferable to use mixtures of ALS inhibitors with herbicides with other modes of action.  相似文献   

Excretion of unchanged organophosphorus compounds after their consumption by larvae of the Egyptian cotton leafworm,Spodoptera littoralis Boisd     

A. Ben-Aziz  J. Meisner  N. Aharonson  K.R.S. Ascher 《Pesticide biochemistry and physiology》1976,6(1):58-64

The ingestion and excretion of sublethal doses of phosfolan, monocrotophos, parathion, and leptophos were studied in larvae of the Egyptian cotton leafworm, Spodoptera littoralis Boisd. Styropor (foamed polystyrene) lamellae treated with insecticide-sucrose mixtures were fed to the larvae and recovery of the undecomposed insecticides from the feces could be estimated by gas-liquid chromatography, without any cleanup of the sample. The insecticidal residues on Styropor were found to be stable for 5 days.As regards the percentage of insecticide recovered from the feces, two groups could be distinguished: (a) leptophos, practically complete; parathion, 59–67%; b) phosfolan, 10–23%; monocrotophos, 4–7%. A tentative hypothesis was advanced that both oral toxicity of the four compounds for S. littoralis larvae and their subsequent recovery in the feces were related to water solubility.  相似文献   

Juvenile hormone analogs: Toxicity and cross-resistance in the housefly     

F.W. Plapp  S.Bradleigh Vinson 《Pesticide biochemistry and physiology》1973,3(2):131-136

The toxicity of several juvenile hormone analogs (JHAs) to susceptible and insecticide-resistant housefly (Musca domestica L.) strains was determined by an assay procedure in which larvae were exposed to residues of JHAs in glass vials. All JHAs tested were toxic and the most active compound, isopropyl 11-methoxy-3, 7, 11-trimethylododeca-2, 4-dienoate, was 100 times as toxic to the susceptible Orlando Regular strain as methyl parathion and 600 times as toxic as DDT.A 5- to 30-fold tolerance to the different JHAs was present in an insecticide resistant strain in which resistance is associated with a high level of NADPH-dependent microsomal oxidase activity controlled by a gene(s) on chromosome II. Cross-resistance was less marked in a strain with a chromosome V high oxidase gene and absent in strains with other resistance mechanisms.The data indicate that cross-resistance to JHAs in insects may occur in certain strains with high levels of oxidative detoxifying activity. Even so, the most active JHA was far more toxic to both susceptible and resistant strains than methyl parathion or DDT.  相似文献   

Effect of insecticide injection on pyruvate kinase of the insect Tenebrio molitor (Coleopteran)     

Athanasios I. Papadopoulos  Aristotelis Anagnostis  Despina Lazarou 《Pesticide biochemistry and physiology》2005,82(2):115-124

In the present study, we report on the changes observed in the kinetic properties of pyruvate kinase (PK) from whole body homogenate in the three developmental stages of the insect Tenebrio molitor after insecticide or acetone injection, and after injury and 24 h starvation. The apparent K_m value of the enzyme towards phosphoenolpyruvate was higher in the pupae stage than in the rest developmental stages although the same enzyme type appears to be present throughout the life span of the insect as judged by its V_max and sensitivity towards ATP and Alanine. The highest specific activity, twice as high as that of larvae and pupae, was observed in adults. Starvation resulted to activation of the enzyme by increasing the K_m value in the two feeding stages, namely larvae and adult, while injury had the opposite effect. Acetone injection did not have any significant effect at any stage. Insecticide injection had varying effects, depending upon the developmental stage, the dose and the type of the insecticide. In larvae, low doses of methyl paraoxon and methyl parathion activated the enzyme but as the dose increased the K_m value returned to normal levels. Low dose of decamethrin activated the enzyme also but at high dose it caused a severe inactivation as judged by a fivefold increase of the observed K_m. In pupae, decamethrin had no effect, methyl parathion had similar effects to those observed in larvae, and methyl paraoxon caused activation of the enzyme at any dose given. In the adult stage none of the injected insecticides had any effect on the K_m value although V_max and specific activity were significantly altered.  相似文献   

Glucose metabolism in hepatopancreas and gill of Lamellidens marginallis during methyl parathion toxicity     

K.S. Moorthy  B.Kasi Reddy  K.S. Swami  C.S. Chetty 《Pesticide biochemistry and physiology》1985,24(1):40-44

Changes in glucose metabolism were studied in hepatopancreas and gill of freshwater mussel, Lamellidens marginalis, exposed to a sublethal concentration (8 ppm) of methyl parathion. A slight decrease in glycogen and pyruvate and an increase in lactate levels were observed. An increase in phosphorylase and aldolase suggested increased formation of trioses during methyl parathion toxicity. The decrease in lactate dehydrogenase activity and increase in lactate content indicated reduced mobilization of pyruvate into the citric acid cycle. Glucose-6-phosphate dehydrogenase activity was increased, suggesting enhanced oxidation of glucose by the HMP shunt pathway. Citric acid cycle enzymes such as isocitrate, succinate, and malate dehydrogenases were found to be decreased, suggesting abnormality in mitochondrial oxidative metabolism as a consequence of methyl parathion toxicity. The decreased cytochrome c oxidase and Mg²⁺-ATPase, apart from citric acid cycle enzymes, indicated impaired energy synthesis as a result of reduced aerobic oxidation of glycose. The increase in acid and alkaline phosphatase activities suggested enhanced breakdown of phosphate to release energy in view of inhibition of the ATPase system during methyl parathion stress. The changes were more pronounced in hepatopancreas as compared to gill of mussel exposed to methyl parathion.  相似文献   

The epoxidation of aldrin by microsomes from the Fc strain of housefly: A genetic survey     

R.D. Schonbrod  R.F. Hoyer  S.J. Yu  L.C. Terriere 《Pesticide biochemistry and physiology》1973,3(3):259-270

The DDT-resistant housefly strain, Fe, known to resist DDT by biochemical oxidation, is also resistant to carbamate insecticides and has a high in vitro microsomal epoxidase activity. The purpose of this investigation was to determine whether the DDT resistance, associated with chromosome V, is also responsible for the resistance to carbamates and for the high epoxidase levels. Genetic procedures for segregating the R factors were employed using a multimarker insecticide susceptible strain designated acbco. The technique involved backcrossing the F₁ hybrid of the resistant and susceptible parents to the susceptible parent. The genotypes with a single R chromosome from the Fc parent were retained for further development as substrains and for toxicological and biochemical studies.These studies revealed that both resistance to the carbamate insecticide, propoxur, and the high in vitro microsomal epoxidation of aldrin were lost during the genetic isolation of the R factors. However, the resistance to DDT, associated with chromosome V, was present in the substrain carrying this chromosome from the Fc parent. All of the substrains were induced five- to seven-fold, by feeding phenobarbital at 1% in the diet for 3 days.Additional substrains synthesized from the substrains carrying chromosomes II and V or III and V from the Fc parent did not possess sufficient propoxur resistance or aldrin epoxidase activity to account for that present in the R parent.The interpretation of these rseults is that neither the carbamate resistance nor the microsomal epoxidase of the Fc strain is due to the factor which oxidizes DDT. Furthermore, the factor responsible for the high microsomal epoxidase activity is not due to a single chromosome such as chromosome II which is the case in other housefly strains with high oxidase activities.  相似文献   

The biochemistry of insecticide resistance in Anopheles sacharovi: Comparative studies with a range of insecticide susceptible and resistant Anopheles and Culex species     

J. Hemingway  C.A. Malcolm  K.E. Kissoon  R.G. Boddington  C.F. Curtis  N. Hill 《Pesticide biochemistry and physiology》1985,24(1):68-76

Fourth instar larvae, the progeny from wild-caught Anopheles sacharovi females, were subjected to a number of biochemical tests and the results were compared to those from similar tests on laboratory insecticide resistant and susceptible strains of anopheline and culicine mosquitoes. DDT resistance in An. sacharovi is associated with the ability to rapidly metabolise DDT to DDE. The organophosphorus and carbamate resistance was not associated with quantitative changes in esterases, multifunction oxidases, or glutathione S-transferase. The acetylcholinesterase was less sensitive to malaoxon and propoxur than laboratory susceptible An. albimanus, and plots of inhibition suggest that the population was polymorphic for more than one form of acetylcholinesterase. Metabolism studies on malathion and pirimiphos methyl did not indicate resistance due to increased metabolism. There was no evidence of penetration barriers contributing to resistance to either DDT or malathion, and there was no indication of any resistance to pirimiphos methyl in our tests.  相似文献   

Organophosphate degradation by insecticide-resistant and susceptible populations of mosquitofish (Gambusia affinis)     

Janice E. Chambers  James D. Yarbrough 《Pesticide biochemistry and physiology》1973,3(3):312-316

Phosphorothionate and phosphate degradation was investigated as a factor which could influence the tolerance of organochlorine compound-resistant and susceptible mosquitofish (Gambusia affinis) to parathion and methyl parathion. The greater toxicity of methyl parathion than parathion can be attributed in part to a higher rate of degradation of methyl paraoxon than paraoxon (7-fold), but not to any difference in phosphorothionate dearylation. Resistant fish possess higher levels of microsomal mixed-function oxidases which can degrade methyl parathion (1.3-fold); these higher levels could contribute to the increased methyl parathion tolerance by this population over the susceptible population. Environmentally induced tolerance to parathion in the resistant population may be the result of increased levels of parathion degradation by induced mixed-function oxidases which can dearylate parathion. The increased tolerance of either insecticide by the resistant population is not caused by degradation of the phosphates by phosphotriesterases.  相似文献   

Polysubstrate monooxygenases (cytochrome P-450) in larvae of susceptible and resistant strains of house flies     

R. Feyereisen 《Pesticide biochemistry and physiology》1983,19(3):262-269

The polysubstrate monooxygenases (PSMO or cytochrome P-450) of house fly larvae were studied at the mature larval or “clear gut” stage. Fat body and gut tissues were most efficient in the conversion of aldrin to dieldrin. Microsomal fractions of larval homogenates had the highest PSMO activities, with lower PSMO activities also found associated with mitochondrial fractions. Microsomes from Rutgers (resistant) larvae had higher levels of NADPH:cytochrome c reductase (2×), cytochrome P-450 (2×), aldrin (4×), and heptachlor (9×) epoxidases than microsomes from CSMA (susceptible) larvae. Cytochrome P-450 of Rutgers larvae had an absorption maximum at 449 nm, 2 nm lower than the cytochrome P-450 of CSMA larvae. n-Octylamine spectra showed that the level of high-spin cytochrome P-450 was higher in Rutgers larvae. NADPH:cytochrome c reductase, cytochrome P-450, and aldrin epoxidase were induced by phenobarbital, and Rutgers larvae were shown to be more sensitive to this inducer than CSMA larvae. Induction of larval PSMO by phenobarbital did not affect the expression or the inducibility of PSMO in adults.  相似文献   

Host plant stimulation of detoxifying enzymes in a phytophagous insect     

S.J. Yu  R.E. Berry  L.C. Terriere 《Pesticide biochemistry and physiology》1979,12(3):280-284

The midgut microsomal aldrin epoxidase of variegated cutworm larvae (Peridroma saucia, Hübner) fed bean or peppermint leaves was up to 10 and 45 times more active, respectively, than that of larvae fed a basic control diet. Large increases in oxidase activity and cytochrome P-450 levels also occurred in larvae fed mint plant constituents such as menthol menthone, α-pinene, and β-pinene. Mint-fed larvae were more tolerant of the insecticide, carbaryl, than bean-fed larvae.  相似文献   

The mechanisms of carbaryl resistance in the fall armyworm,Spodoptera frugiperda (J. E. Smith)     

《Pesticide biochemistry and physiology》1987,27(1):114-122

The physiological mechanisms of resistance to carbaryl were investigated in a carbaryl-resistant strain of the fall armyworm, Spodoptera frugiperda (J. E. Smith). Piperonyl butoxide greatly reduced the resistance level from 90- to 6-fold, indicating that microsomal cytochrome P-450-dependent monooxygenases may play a major role in resistance. This finding is consistent with metabolic data in which the oxidative metabolism of carbaryl by midgut homogenates was five times more active in the resistant strain than in the susceptible strain. In addition, the resistant strain showed increased activities of microsomal hydroxylation and epoxidation compared to the susceptible strain. Cuticular penetration studies using [¹⁴C]carbaryl revealed that 55% of the applied radioactivity remained on the cuticle of resistant larvae while 32% remained on susceptible larvae 24 hr after topical treatment. The resistance appeared to be unrelated to target site insensitivity. It is concluded that the high level of resistance to carbaryl in this insect was mainly due to enhanced oxidative metabolism of the insecticide (via hydroxylation and epoxidation) with reduced cuticular penetration playing a very minor role, if any.  相似文献   

Interaction of insecticides with the Ca²⁺-pump activity of sarcoplasmic reticulum     

M.C. Antunes-Madeira  Vitor M.C. Madeira 《Pesticide biochemistry and physiology》1982,17(2):185-190

The organophosphorus insecticides, parathion and azinphos (10^?5-10^?4M), significantly stimulate the Ca²⁺-pump activity of sarcoplasmic reticulum, while malathion has a limited effect. The rates of Ca²⁺ translocation and ATP hydrolysis are both stimulated and, apparently, the $\text{Ca}{}^{\mathrm{2+}}\text{ATP}$ ratio is improved. Parathion and azinphos maximally increase this ratio by 26 and 14%, respectively. The organochlorine compounds, DDT and aldrin, also stimulate the Ca²⁺ pump, and lindane has a reduced effect. These effects are smaller than those observed for parathion and azinphos. The order of effectiveness is similar to the toxicity of the compounds to mammals and can be described as follows: parathion > azinphos > DDT ≈ aldrin > malathion ≈ lindane.  相似文献   

Fitness cost, cross resistance and realized heritability of resistance to imidacloprid in Spodoptera litura (Lepidoptera: Noctuidae)     

Naeem AbbasSarfraz Ali Shad  Muhammad Razaq 《Pesticide biochemistry and physiology》2012,103(3):181-188

Imidacloprid has been used as a key insecticide for controlling sucking insect pests of cotton, whereas Spodoptera litura also has been indirectly exposed to this insecticide in Pakistan. To evaluate the risk of resistance evolution and to develop a better resistance management strategy, a field collected population was selected with imidacloprid in the laboratory. Thereafter, fitness cost, realized heritability and cross resistance of imidacloprid resistance in S. litura were investigated. After 14 generations of selection with imidacloprid, S. litura developed a 137.48-fold resistance to the insecticide. Bioassay revealed that this strain showed cross-resistance to acetamiprid (RR 8.52) and a little to lamdacyhalothrin (1.92) but negative cross-resistance was found to methomyl (−0.19). The resistant strain had a relative fitness of 0.38, with substantially lower rates of larval survival, larval duration, male pupal duration, development time, emergence rate of healthy adults, fecundity, hatchability, and prolonged larval and pupal duration. Mean relative growth rate of the larvae, intrinsic rate of population increase, and biotic potential was lower for the selected populations. The estimated realized heritability (h²) of imidacloprid resistance was 0.15 in the resistant strain of S. litura. Development of the resistance may cost significant fitness for the resistant population. This study provided valuable information for further understanding the impact of imidacloprid resistance on physiological parameters of S. litura and for facilitating the development of resistance management strategies.  相似文献   

Comparative toxicity of several insecticides to eggs,larvae and adults of the Egyptian cottonworm,Spodoptera littoralis,in laboratory trials     

M. Klein  Shlomit Levski  Sara Keren 《Phytoparasitica》1982,10(1):13-20

Insecticides commonly used in cotton fields in Israel against lepidopterous pests were tested against eggs, as well as against 2nd-instar larvae and adults raised from eggs ofSpodoptera littoralis (Boisduval) collected in cotton fields in the Bet She’an Valley. Methomyl, chlorpyrifos, methidathion, monocrotophos, ethyl parathion, and methyl parathion were effective against eggs even at low doses, profenofos and phosfolan were less active, and azinphos-methyl was ineffective. The doses needed for 90% kill (LD ₉₀ ) of the 2nd-instar larvae were 8.5, 35, 280, 1300 and 3400 g a.i./1000 m ² for chlorpyrifos, methomyl, profenofos, methyl parathion and ethyl parathion, respectively; monocrotophos was inactive against 2nd-instar larvae even at relatively high doses. The LD ₉₀ of adults was reached with 16, 32, 1700 and 6100 ga.i./l000 m² of chlorpyrifos, methomyl, ethyl parathion and profenofos, respectively. Only chlorpyrifos and methomyl gave successful control of all three stages of the insect tested, at doses close to those generally used with aerial applications.  相似文献   

Adult Drosophila melanogaster glutathione S-transferases: Effects of acute treatment with methyl parathion     

Zazali Alias  Alan G. Clark 《Pesticide biochemistry and physiology》2010,98(1):94-98

The effect of acute treatment of methyl parathion (MP) on the expression of BSP/GSH-agarose purified glutathione S-transferases (GSTs) in Drosophila melanogaster was investigated. Using 2-D gel analysis of the identified Epsilon-class, only DmGSTE6 (100%) and DmGSTE7 (72%) demonstrated significant increases in expression, suggesting the possibility that both may be involved in MP metabolism. A smaller percentage increase was also observed in DmGSTD1 (18%), a known DDT dehydrochlorinase, DmGSTE3 and DmGSTE9 and a putative Epsilon-class GST, CG16936, were shown not to be responsive to the challenge. Our finding demonstrates that not all member of the Epsilon-class GST, which are known for their role in insecticide resistance, are immediately responsive to this toxic challenge.  相似文献   

An evaluation of the role of oxidative enzymes in Colorado potato beetle resistance to carbamate insecticides     

Randy L. Rose  William A. Brindley 《Pesticide biochemistry and physiology》1985,23(1):74-84

Carbofuran and carbaryl LD₅₀ values were determined with and without piperonyl butoxide pretreatment for a resistant (New Jersey) and two susceptible (Utah and Netherland) populations of Colorado potato beetle larvae. Similar bioassays were conducted with carbofuran for resistant (Rutgers) and susceptible (NAIDM) adult house flies. The degree of resistance development by New Jersey Colorado potato beetles (RR = 848) was greater than that of the laboratory-selected colony of Rutgers house flies (RR = 583). Comparisons of synergist difference calculations including “percentage synergism” (%S), “log percentage synergism” (L%S), and “relative percentage synergism (R%S) for the resistant (R) and the susceptible (S) populations indicated the possibility that monooxygenases and other resistance mechanisms may be involved in Colorado potato beetle resistance to these carbamates. Monooxygenase involvement in resistance of Rutgers house flies was demonstrated in vitro by a 4-fold enhancement of p-nitroanisole O-demethylation over that of NAIDM house flies. O-demethylation of p-nitroanisole could not be demonstrated for potato beetle larvae. Colorado potato beetle resistance was associated with increases in microsomal levels of NADPH-cytochrome c reductase (ca. 2-fold) and NADPH oxidation (1.2-fold). The inability to measure O-demethylation in Colorado potato beetles may have been due to the solubilization of NADPH-cytochrome c reductase during microsomal preparation. Significant differences between resistant and susceptible Colorado potato beetle larvae were not observed in the penetration of [¹⁴C]carbaryl. Excretion of the radiocarbon may have been significantly greater in the resistant New Jersey population, but some of the insecticide may have also rubbed off the cuticle. This increased capacity for excretion, combined with increased levels of monooxygenase enzymes, could account for the high resistance level of this population.  相似文献   

Induction of detoxification enzymes by triazine herbicides in the fall armyworm, Spodoptera frugiperda (J.E. Smith)     

S.J. Yu 《Pesticide biochemistry and physiology》2004,80(2):113-122

The inductive effect of six triazine herbicides on a variety of detoxification enzymes was investigated in fall armyworm (Spodoptera frugiperda) larvae maintained on an artificial diet. Dietary atrazine induced nine microsomal oxidase activities ranging from 1.3- to 21.6-fold, 12 glutathione S-transferase activities ranging from 1.3- to 4.2-fold, four hydrolase activities ranging from 1.3- to 2.9-fold, and two reductase activities ranging from 1.5- to 5.1-fold, depending on the enzyme assayed and tissue source (midgut vs. fat body) used. Simazine, cyanazine, ametryn, tebutryn, and terbuthylazine also induced these detoxification enzymes. The induction of microsomal oxidase (aldrin epoxidase) ranged from 1.2- to 11-fold, glutathione S-transferase (CDNB) ranged from 1.3- to 4-fold, and general esterase ranged from 1.4- to 4.1-fold, depending on the tissue source examined. In general, fat bodies were more inducible than midguts with respect to these detoxification enzymes, especially the microsomal oxidases. The induction by atrazine was associated with decreased toxicity of carbaryl, permethrin and indoxacarb, but increased toxicity of methyl parathion, phorate, and trichlorfon.  相似文献