Cytochrome P-450 content and aldrin epoxidation to dieldrin in isolated rat hepatocytes     

Norio Kurihara  Nobuaki Hori  Reiji Ichinose 《Pesticide biochemistry and physiology》1984,21(1):63-73

A rat hepatocyte suspension effectively epoxidized aldrin to dieldrin with a V_max of 7.19 mol/mol P-450/min and a K_m of 9.27 μM. Viability and metabolic activity were stable for 6 hr after isolation when cells were maintained at room temperature (20°C) with the gentle introduction of $\text{O}{}_2\text{CO}{}_2$ onto the surface of the suspension. The cytochrome P-450 content of the suspension was 303 pmol/10⁶ cells. Primary maintenance culture of the cells also epoxidized aldrin. During culture for 3 days, metabolic activity decreased slowly day by day. Metabolic activity of microsomal fraction from rat liver was also examined. Microsomes epoxidized aldrin with a V_max of 5.11 mol/mol P-450/min and a K_m of 1.64 μM. Significant loss of some subspecies of cytochrome P-450 during fractionation of liver homogenate was indicated.  相似文献   

Deuterium isotope effects on the formation of mercapturic acids from lindane in rats     

Norio Kurihara  Tetsuya Suzuki  Minoru Nakajima 《Pesticide biochemistry and physiology》1980,14(1):41-49

Metabolism experiments with rats showed that significant isotope effects ($\text{k}{}_{\mathrm{<mtext>H</mtext>}}\text{k}{}_{\mathrm{<mtext>D</mtext>}}\text{= 2.4}\text{to}\text{3.5}$) were associated with the in vivo formation of dichloro and trichlorophenylmercapturic acids from a 1:1 mixture of normal and hexadeuterated lindane. This is evidence that rate-determining dehydrogenation and dehydrochlorination, both of which proceed with significant isotope effects, are essential in the pathway of dichloro- and trichlorophenylmercapturic acid formation from lindane. No significant primary isotope effects were associated ($\text{k}{}_{\mathrm{<mtext>H</mtext>}}\text{k}{}_{\mathrm{<mtext>D</mtext>}}\text{= 1.31 ± 0.17}$) with the formation of monochlorophenylmercapturic acid. This suggests that the 1,2-dechlorination to tetrachlorocyclohexene followed by glutathione conjugation is the probable pathway that produces this metabolite from lindane.  相似文献   

Induction of glutathione S-transferase by phenobarbital and pesticides in various house fly strains and its effect on toxicity     

T. Hayaoka  W.C. Dauterman 《Pesticide biochemistry and physiology》1982,17(2):113-119

The effect of phenobarbital and certain pesticides on glutathione S-transferase activity was investigated. The maximum amount of enzyme induction occurred 96 hr after phenobarbital treatment. Chlorinated hydrocarbons were more effective inducers than the other pesticides evaluated. Phenobarbital treatment did not alter the apparent K_m value but altered the $\text{V}{}_{\mathrm{<mtext>max</mtext>}}$ value of glutathione S-transferase to 3,4-dichloronitrobenzene. The amount of reduced glutathione was not increased by phenobarbital treatment. Pretreatment of house flies with phenobarbital provides some protection against methyl parathion, methyl paraoxon, azinphosmethyl, and methidathion toxicity.  相似文献   

Isomerization and Beckmann rearrangement reactions in the metabolism of methomyl in rats     

Kurt Huhtanen  H.Wyman Dorough 《Pesticide biochemistry and physiology》1976,6(6):571-583

Methomyl {S-methyl-N-[(methylcarbamoyl)oxy]thioacetimidate}, also known as Lannate, may exist in two geometric configurations but the more stable syn isomer is the form applied as an insecticide. In the rat, syn[¹⁴CN]methomyl [CH₃S(CH₃)CNOC(O)NHCH₃] was metabolized to respiratory ¹⁴CO₂ and $\text{CH}{}_3{}^{14}\text{CN}$ in a ratio of about 2 to 1. Studies with the anti isomer showed that it was metabolized predominately to $\text{CH}{}_3{}^{14}\text{CN}$. These and other data are presented supporting the contention that syn methomyl is partially isomerized to the anti isomer in the animal prior to the hydrolysis of the ester linkage. After hydrolysis, the syn oxime [CH₃S(CH₃)¹⁴CNOH] is further metabolized to ¹⁴CO₂ while the anti oxime is metabolized to $\text{CH}{}_3{}^{14}\text{CN}$. Proposed immediate precursors to the carbon dioxide and acetonitrile, formed by Beckmann rearrangement of the syn and anti oximes, are CH₃S¹⁴C(O)NHCH₃ and $\text{[}\text{CH}{}_3{}^{\mathrm{14\oplus }}\text{CNSCH}{}_3\text{]x}{}^{\mathrm{?}}$, respectively.  相似文献   

Studies on the chiral isomers of fonofos and fonofos oxon: I. Toxicity and antiesterase activities     

Philip W. Lee  Reza Allahyari  T.Roy Fukuto 《Pesticide biochemistry and physiology》1978,8(2):146-157

The toxicity of the (R)_P and (S)_P chiral isomers and racemates of fonofos and fonofos oxon to insects and white mice were determined. (R)_P-Fonofos and (S)_P-fonofos oxon were 2- to 12-fold more toxic to house flies, mosquito larvae, and mice than were the corresponding enantiomers. The racemates were intermediate in toxicity. Stereoselectivity also was observed in the in vitro inhibition of house fly-head and bovine erythrocyte acetylcholinesterase, horse serum cholinesterase, chymotrypsin, trypsin, and a variety of esterases. In all cases the (S)_P-oxon was a more potent inhibitor than the (R)_P-oxon with k₁ ratios of $\text{(S)}{}_{\mathrm{<mtext>P</mtext>}}\text{(R)}{}_{\mathrm{<mtext>P</mtext>}}$ ranging from 4- to 60-fold. Further, differences in levels of house fly-head, mouse brain, and blood cholinesterase obtained from house flies and mice treated with the enantiomers and racemates of fonofos and fonofos oxon were observed. Differences in toxicity of the enantiomers and racemates to house flies and mice were more closely related to in vivo than to in vitro cholinesterase inhibition.  相似文献   

Hydrolysis of malathion by rabbit liver oligomeric and monomeric carboxylesterases     

P.T. Lin  A.R. Main  N. Motoyama  W.C. Dauterman 《Pesticide biochemistry and physiology》1983,20(2):232-237

The hydrolysis of malation by rabbit liver oligomeric and monomeric carboxylesterases (CE's) (EC 3.1.1.1) results in the formation of a mixture of α- and β-monoacids. A new chromatographic procedure was utilized to investigate the formation of α- and β-monoacids. The oligomeric carboxylesterase (oCE) produced an $\text{α}\text{β}$ ratio of monoacids of 4.55, and the monomeric carboxylesterase (mCE) produced an $\text{α}\text{β}$ ratio of monoacids of 2.33. The ratios of α- and β-monoacids were independent of the initial concentration of malathion and remained constant over the time course of the reaction. Kinetic studies demonstrated that the K_m values were the same for the corresponding reactions which produced either α-monoacid or β-monoacid with the same enzyme. Since both carboxylesterases are electrophoretically pure, the kinetic data strongly supports the theory that the reactions which produced α- and β-monoacids are catalyzed by the same active site. Comparison of the k_cat and K_m values governing the hydrolysis of malathion by the two esterases, together with their relative abundance in liver, indicated that the oCE would be responsible for about 80 to 98% of the hydrolytic detoxication of malathion by rabbit liver.  相似文献   

Inhibition of Penicillium duponti carboxylesterase by the fungicides captan and folpet     

Karl Neidert  Lee Van Epps  William Welch 《Pesticide biochemistry and physiology》1985,23(2):221-227

Captan, folpet, and perchloromethylmercaptan were effective inhibitors of Penicillium duponti p-nitrophenylpropionate esterase activity (I₅₀ = 0.5 – 2 μM) whereas α-naphthyl acetate esterase activity was not affected by the presence of these compounds. Captan and folpet are both equally effective at pH 7.3 and 8.3. The ionic composition of the medium had strong effects on the degree of inhibition produced by all inhibitors but did not alter esterase activity. Neither succinamide nor phthalimide caused inhibition of the p-nitrophenylpropionate esterase activity: The trichloromethylmercaptan portion of these fungicides appears to be responsible for the observed inhibition. The rapidity of captan and folpet inhibition of esterase activity (complete in < 1 min) compared to the rates of spontaneous decomposition ($\text{t}{}_{\mathrm{<mtext>1</mtext><mtext>2</mtext>}}\text{> 1}\text{min}$) and the insensitivity of captan and folpet inhibition to hydrogen ion concentration suggest that generation of spontaneous decomposition products is not required for inhibition. The results are consistent with a mechanism in which the entire fungicide molecule binds to the protein followed by enzyme-promoted reactions of captan and folpet which result in loss of esterase activity.  相似文献   

Metabolism of lindane in house flies: Metabolic desaturation,dehydrogenation and dehydrochlorination,and conjugation with glutathione     

Keiji Tanaka  Norio Kurihara  Minoru Nakajima 《Pesticide biochemistry and physiology》1976,6(4):392-399

In lindane-treated house flies, a cis-dehydrogenated metabolite, $\text{(}\text{36}\text{45}\text{)-}\text{hexachlorocyclohexene}$, was identified by gas-liquid chromatography and mass spectrometry. The in vitro metabolism study showed that in the presence of NADPH the microsomal fraction of house flies converted lindane to three hexane-soluble metabolites. This conversion was inhibited by piperonyl butoxide, SKF-525A, and carbon monoxide. These metabolites were identified as $\text{(}\text{36}\text{45}\text{)-}\text{hexachlorocyclohexene}$, $\text{(}\text{36}\text{45}\text{)- and (}\text{346}\text{5}\text{)-pentachlorocyclohexene}$ (PCCHE) by gas-liquid chromatography. They, as well as lindane, were excellent substrates for the reaction with the postmicrosomal fraction in the presence of glutathione. While the reaction with lindane-d₆ showed a significant deuterium isotope effect (6.82), that of $\text{(}\text{36}\text{45}\text{)-}\text{PCCHE-d}{}_5$ did not (1.18). Enzymatic conjugation with glutathione probably occurs at the stage of PCCHE.  相似文献   

Steric,electronic, and polar parameters that affect the toxic actions of O-alkyl,O-phenyl phosphonothionate insecticides     

Robert L. Metcalf  Robert A. Metcalf 《Pesticide biochemistry and physiology》1984,22(2):169-177

The toxic action of a series of O-alkyl, O-substituted-phenyl alkyl- and aryl-phosphonates and phosphonothionates have been evaluated by correlating the linear free energy parameters for steric (E_s), electronic (σ), and polar ($\text{σ}{}^1$) effects with topical LD₅₀ to the house fly and oral LD₅₀ to the white mouse. In molecules free from major steric interactions with the reactive P atom, variations in these linear free energy parameters account for >90% of the variations in the LD₅₀ values, and the degree of correlation with LD₅₀ is at least as precise as that with the biomolecular rate constants for inhibition of the target-site enzyme acetylcholinesterase. The value of correlations of linear free energy parameters with LD₅₀ in understanding quantitative structure-activity relationships is illustrated.  相似文献   

Selective alterations of membrane properties of cultured human liver cells caused by the insecticide DDT     

K. Buff  A. Bründl 《Pesticide biochemistry and physiology》1984,22(1):36-42

A variety of membrane-specific parameters was examined in both intact cells and isolated plasma membranes following exposure of cultured human liver cells to the insecticide 1,1-(2,2,2-trichloroethylidene)bis(4-chloro)benzene (DDT). Uptake of DDT was at equilibrium within 6 hr. In contrast, a decrease in the number of β-adrenergic hormone receptors first became significant after 48 hr of cell exposure. Whereas the uptake was largely reversible, the loss in the number of β receptors did not recover after DDT-exposed cells were cultured in fresh medium lacking the insecticide. Experiments in vitro substantiated the time lag of the biological effect. The decrease in receptor proteins was persistent in membranes with increased phospholipid unsaturation. Temperature-activity profiles (“Arrhenius plots”) of $\text{Na}{}^{\mathrm{+}}\text{K}{}^{\mathrm{+}}\text{-ATPase}$ and 5′-nucleotidase were unchanged. Endogenous tryptophan fluorescence of membrane proteins was lower in membranes from DDT-exposed cells. These selective alterations in membrane parameters suggest a specific interaction of DDT with membrane proteins; interference with cellular protein synthesis is possible. The results indicate that membrane lipid “fluidization” does not play a physiologically important role in the mechanism of DDT action in biomembranes.  相似文献   

The purification and characterization of esterases from insecticide-resistant and susceptible house flies     

L.R. Kao  N. Motoyama  W.C. Dauterman 《Pesticide biochemistry and physiology》1985,23(2):228-239

Four major esterases in one susceptible (CSMA) and two resistant (Hirokawa, E₁) house fly strains were separated by chromatofocusing. Of the four esterases, those with pI's of 5.1 and 5.3 accounted for 90% of the p-nitrophenyl butyrate hydrolyzing activity in the three house fly strains. They also accounted for 70% (Hirokawa, E₁) and 40% (CSMA) of the paraoxon-hydrolyzing activity as well as 87% (Hirokawa), 39% (E₁) and 66% (CSMA) of the malathion-hydrolyzing activity in microsomes as measured by esterase-antibody interaction. In the Hirokawa strain, the pI 5.1 esterase was the predominant esterase and was more active than that of the the CSMA strain. Different substrate specificities and a different K_m toward acetylthiocholine, as well as different rates of malathion and paraoxon hydrolysis between the Hirokawa and CSMA strains, suggest a qualitative difference in the pI 5.1 esterase. For the pI 5.1 esterase from the E₁ strain, a different substrate specificity, a different K_m for p-nitrophenyl butyrate, a different sensitivity to inhibitors, and a different rate of paraoxon hydrolysis suggest that it is a modified esterase. This esterase is not a phosphorotriester hydrolase, nor does it lack nonspecific esterase activity. It is a modified esterase which has a different substrate specificity when compared to the esterases from the other strains. The molecular weight of the esterases studied was approximately 220,000, with pH optima of about 7.0.The ratio of malathion α-monoacid to β-monoacid formation was about 9.0 for the pI 5.1 and 5.3 esterases and 1.5 for the pI 4.8 and 5.6 esterases. The existence of a higher $\text{α}\text{β}$ ratio for the pI 5.1 and 5.3 esterases and their significant rate of malathion hydrolysis in the Hirokawa strain indicate that an increase in the $\text{α}\text{β}$ ratio in house flies reported was due to the increase in the pI 5.1 esterase in the resistant strain.  相似文献   

Identification of products arising from the metabolism of cis- and trans-chlordane in rat liver microsomes in vitro: Outline of a possible metabolic pathway     

A.A. Brimfield  J.C. Street  Jean Futrell  Dale A. Chatfield 《Pesticide biochemistry and physiology》1978,9(1):84-95

The metabolism of pure cis- and trans-chlordane was studied in vitro. Microsomal preparations from the livers of male rats induced with cis- or trans-chlordane in feed for 10 days were used to metabolize the pure compound corresponding to the inducer. Subsequent extraction, column fractionation, and combined gas chromatography-mass spectroscopy resulted in the characterization of four compounds not previously reported from an in vitro system. In addition to the substrate, trans-chlordane extracts contained species with the following molecular weights and empirical formulas: $\text{m}\text{e}$ 370, C₁₀H₅Cl₇, heptachlor; $\text{m}\text{e}$ 352, C₁₀H₆OCl₆, a hydroxylated chlordene; and $\text{m}\text{e}$ 422, C₁₀H₆OCl₈, a hydroxylated chlordane. Dichlorochlordene, oxychlordane, and 1-chloro-2-hydroxy-dihydrochlordene were also present. With the exception of the hydroxychlordane, cis-chlordane extracts contained all of the metabolites found in the trans incubates. Additionally, a fully saturated compound, $\text{m}\text{e}$ 372, C₁₀H₇Cl₇, a dihydroheptachlor, was present. The 1,2-trans-dihydrodiol of heptachlor found in previous in vitro incubates of cis-chlordane was not present in this extract. This information has been incorporated into a proposed route for the biotransformation of the chlordanes that offers an explanation for the observed differences in the metabolism of cis and trans isomers. The pathway is based on the reductive dechlorination of the chlordanes through dihydroheptachlor to dihydrochlordene. Parallel pathways of hydroxylation, desaturation, and epoxide formation arise at each of these species and at chlordane itself.  相似文献   

Affinity and phosphonylation constants for the inhibition of cholinesterases by the optical isomers of O-2-butyl S-2-(dimethylammonium)ethyl ethylphosphonothioate hydrogen oxalate     

D.A. Wustner  T.R. Fukuto 《Pesticide biochemistry and physiology》1974,4(3):365-376

The synthesis of the four optical isomers of known absolute configuration of O-2-butyl S-2-(dimethylammonium)ethyl ethylphosphonothioate hydrogen oxalate is described. Values for the affinity constant (K_a), phosphonylation constant (k_p), and bimolecular inhibition rate constant (k_i) for the inhibition of bovine erythrocyte acetylcholinesterase, housefly-head acetylcholinesterase, and horse serum cholinesterase by the chiral isomers and the racemic mixture are reported. Using a relatively simple spectrophotometric technique, inhibition times as low as 0.5 sec were used. The phosphorus isomers of S_p configuration were more potent inhibitors than their R_p enantiomers by 1630-fold against the bovine enzyme, 9120-fold against the fly-head enzyme, and 40-fold against the horse serum enzyme. The differences in anticholinesterase activity were attributable to differences in the affinity constant, K_a, and the phosphonylation constant, k_p. Small but consistent inhibition rate differences were attributable to asymmetry at carbon. Against horse serum cholinesterase, the S_C isomers indicated the presence of three kinetic forms in this enzyme preparation.  相似文献   

The mechanism of fungistatic action of sec-butylamine: II. The effect of sec-butylamine on pyruvate oxidation by mitochondria of Penicillium digitatum and on the pyruvate dehydrogenase complex     

M. Yoshikawa  J.W. Eckert  N.T. Keen 《Pesticide biochemistry and physiology》1976,6(5):482-490

sec-Butylamine at 5 mM inhibited the oxidation of pyruvate by mitochondria isolated from hyphae of Penicillium digitalum, but had little effect on the oxidation of citrate, isocitrate, succinate, malate, acetyl-coenzyme A, or reduced nicotinamide adenine dinucleotide. sec-Butylamine did not interfere with oxidative phosphorylation, as evidenced by similar $\text{P}\text{O}$ ratios in treated and control mitochondria. The pyruvate dehydrogenase complex (EC 1.2.4.1) isolated from young hyphae of P. digitatum was inhibited strongly by 20 mM sec-butylamine, whereas other tricarboxylic acid cycle enzymes were only slightly affected at most. Inhibition of the pyruvate dehydrogenase complex by sec-butylamine was competitive with respect to pyruvate. The K_i for sec-butylamine in the reaction was 1.38 × 10^?2M, and the K_m for pyruvate was 2.28 × 10^?4M. These observations and other evidence derived from studies with intact hyphae support the hypothesis that the pyruvate dehydrogenase complex is the primary site of the fungistatic action of sec-butylamine.  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   

The metabolism of p,p′-DDT by the feral pigeon (Columba livia)     

M.S. Sidra  C.H. Walker 《Pesticide biochemistry and physiology》1980,14(1):62-71

Male feral pigeons were dosed with ring-labeled $\text{[}{}^{14}\text{C}\text{]p,p′-}\text{DDT}$ and the tissues and droppings analyzed for total ¹⁴C, extractable ¹⁴C, and metabolites. Only 16% of an intraperitoneal dose of 1.5–2.2 mg kg^?1 was voided in the droppings over 28 days; the rate of loss reached a maximum on the 14th day and then fell quickly away. The rate of removal of ¹⁴C in droppings was low in comparison to that found in the rat and the Japanese quail. When pigeons were dosed with 32–38 mg kg^?1 DDT per bird, and killed after 77 days, 5.4% of the dose was eliminated in droppings and 87% was recovered in the body. The tissues and droppings from this experiment were analyzed for DDT and its metabolites. Of the ¹⁴C remaining in tissues 88% was accounted for as the apolar compounds DDE, DDT, and DDD. Approximately half of the ¹⁴C in droppings was present as DDE, DDT, and DDD, whereas 27–35% was apparently in conjugated form, extractable from aqueous solutions by ethyl acetate after prolonged acid hydrolysis. Two polar metabolites were isolated from the acid-released material. One was p,p′-DDA; the other was extractable from aqueous solution at pH 8 and was tentatively identified as a monohydroxy derivative of p,p′-DDT. DDE accounted for 93% of the ¹⁴C present as metabolites in tissues and droppings, clearly indicating the importance of this intermediate in this study. The metabolism of DDT in the feral pigeon is discussed in relation to its metabolism by other species.  相似文献   

Inhibition of two acetylcholinesterases by the 4-nitrophenyl esters of methyl-, ethyl-, and isopropyl(phenyl)phosphinic acid     

Claire N. Lieske  James H. Clark  Howard G. Meyer  Marvin A. Lawson  John R. Lowe  Peter Blumbergs  Matthew A. Priest 《Pesticide biochemistry and physiology》1982,17(2):142-148

The inhibition of eel acetylcholinesterase and bovine erythrocyte acetylcholinesterase by the 4-nitrophenyl esters of methyl-, ethyl-, and isopropyl(phenyl)phosphinic acid (MPP, EPP, and IPP, respectively) was investigated at pH 6.90 in 0.067 M phosphate buffer (25.0°C) using stopped-flow instrumentation and automated data processing. Our evaluation of the dissociation constant, K_d, the unimolecular bonding rate constant, k₂, and the bimolecular reaction constant, k_i, are the first reported values for these constants for a homologous series of this class of organophosphorus compounds. The largest k₁ value (29,428 M^?1 sec^?1) was observed for the reaction of eel acetylcholinesterase with 4-nitrophenyl methyl(phenyl)phosphinate. The smallest k_i value (9.6 M^?1 sec^?1) was observed for the reaction of bovine erythrocyte acetylcholinesterase with 4-nitrophenyl isopropyl(phenyl)phosphinate.  相似文献   

Selectivity, acetylcholinesterase inhibition kinetics, and quantitative structure-activity relationships of a series of N-(2-oxido-1,3,2-benzodioxa-phosphol-2-yl) amino acid ethyl or diethyl esters     

Hussein M. Ali  Hany A. Sharaf Eldeen  Mohamed S. Hikal 《Pesticide biochemistry and physiology》2005,83(1):58-65

The inhibitory effects of a recently introduced series of the titled compounds on insect and mammalian acetylcholinesterase (AChE) activity were examined, where the median inhibition concentration (I₅₀) and the inhibition kinetic parameters, bimolecular inhibition rate constant (k_i), affinity constant (K_a), and phosphorylation rate constant (k_p), were determined for each compound. Results indicated that all examined dioxaphospholenes had less inhibitory effects on mammalian AChE than fenitrothion, a commercial pesticide with moderate mammalian toxicity. The highest selectivity was obtained with compounds containing glutamic and leucine moieties (2.70 and 2.18, respectively) while selectivity of fenitrothion was 0.93. The low inhibitory effects of the examined dioxaphospholenes on mammalian AChE were attributed to their low phosphorylation rates (k_p < 2.2 min⁻¹) compared to that of fenitrothion (k_p = 4.84 min⁻¹). QSAR equations indicated that the inhibition process is controlled mainly by both the phosphorylation rate (direct effect) and the affinity of compounds toward the enzyme (inverse effect). Although the compounds’ hydrophobicity had no effects on the inhibition process, it affects the compounds’ toxicity since it affects the ability of compounds to penetrate insects to reach the enzyme active site.  相似文献   

Bleaching activity and chemical constitution of phenylpyridazinones     

G. Sandmann  K.-J. Kunert  P. Böger 《Pesticide biochemistry and physiology》1981,15(3):288-293

The bleaching effect of 2-phenylpyridazinones substituted at the 4 or 5 position of the pyridazinone moiety or at the phenyl ring (position 9) was assayed using a greening Scenedesmus mutant after its transfer from heterotrophic to autotrophic growth. The following relationship between bleaching activities and Hammett electronic parameters of the various substituents could be demonstrated. The biological activity of the pyridazinone skeleton was enhanced with substituents showing (a) increasing σ_m values in position 4, (b) increasing σ_m or σ_p values in position 9, and (c) decreasing σ_p values in position 5. These findings could be corroborated by data on pigment bleaching and decrease of photosynthetic oxygen evolution of autotrophic (green) wild-type Scenedesmus after growth in the presence of sublethal concentrations of pyridazinones. There is no structure/activity relationship with direct inhibition of photosynthetic electron transport. Based on electronic parameters, the construction of phenylpyridazinone derivatives with bleaching activity is proposed.  相似文献   

Spectral and inhibitory interactions of methylenedioxyphenyl compounds with southern armyworm (Spodoptera eridania) midgut microsomes     

Kuo-Mei Chang  C.F. Wilkinson  Krystyna Hetnarski 《Pesticide biochemistry and physiology》1981,15(1):32-42

Characteristics of the Type III optical difference spectra of 13 methylenedioxyphenyl compounds in NADPH-fortified armyworm midgut microsomes varied with the nature of the substituents in the aromatic ring. Compounds with electron-donating substituents yielded spectra with large $\text{427}\text{458}\text{nm}$ peak ratios, whereas those with electron-withdrawing groups exhibited low $\text{427}\text{458}\text{nm}$ peak ratios. Small amounts of carbon monoxide were generated during incubation of the 4,5-dihalo derivatives with midgut microsomes, and cis- and trans-methylenedioxycyclohexanes exhibited spectra with a major Soret peak at about 430 nm and a very weak absorbance maximum at about 480 nm. Formation of the Type III spectral complex occurred very rapidly and was associated with a marked decrease (up to 72%) in cytochrome P-450 levels as measured by carbon monoxide binding. Although a 24% reduction of cytochrome P-450 was observed in the absence of any measureable 458-nm spectral complex a linear relationship existed between further decreases in the cytochrome and the increase in Type III complex formation (458 nm). Inhibitory potencies of the compounds towards aldrin epoxidase and benzopyrene hydroxylase activities were not clearly correlated with either spectral complex formation or decrease in cytochrome P-450 and it is apparent that different factors are involved in the inhibition of different monooxygenase reactions.  相似文献