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   

Studies on hydrolases in various house fly strains and their role in malathion resistance     

L.R. Kao  N. Motoyama  W.C. Dauterman 《Pesticide biochemistry and physiology》1984,22(1):86-92

Aliesterase, carboxylesterase, and phosphorotriester hydrolase activities in six house fly strains were studied in relation to malathion resistance. Selection of two susceptible strains with malathion for three generations resulted in an increase in both carboxylesterase activity and LD₅₀ of malathion, indicating that the increased detoxication by the enzyme was the major mechanism selected for malathion resistance. With the highly resistant strains, however, the carboxylesterase activity alone was not sufficient to explain the resistance level, and the involvement of additional mechanisms, including phosphorotriester hydrolase activity, was suggested. The E₁ strain, which had high phosphorotriester hydrolase activity but normal or low carboxylesterase activity, showed a moderate level, i.e., sevenfold resistance. Upon DEAE-cellulose chromatography, two or three esterase peaks were resolved from susceptible, moderately resistant, and highly resistant strains. The substrate specificity, the sensitivity to paraoxon inhibition, and the $\text{α}\text{β}$ ratio of malathion hydrolysis were studied for each esterase peak from the different strains. The results suggested the existence of multiple forms of esterases with overlapping substrate specificity in the house fly.  相似文献   

General esterase,malathion carboxylesterase,and malathion resistance in Culex tarsalis     

《Pesticide biochemistry and physiology》1987,28(2):279-285

The role of esterases in malathion resistance in Culex tarsalis has been investigated. When larvae of a resistant and a sensitive strain were placed in water containing [¹⁴C]malathion, malathion penetrated to give initially similar internal levels. With resistant mosquitoes, after 15 min the internal malathion concentration decreased to low levels while the monoacid degradation products accumulated in the larvae and were excreted into the surrounding water, whereas in susceptible larvae the internal malathion level stayed high and was lethal. It is suggested that the decrease in internal malathion and the resulting resistance were caused by an active malathion carboxylesterase in the resistant strain. A specific assay for malathion carboxylesterase with [¹⁴C]malathion showed 55 times more activity in resistant than in susceptible larvae, whereas when general esterase activity was assayed with α-naphthyl acetate only 1.7 times the activity was found. Analyses by starch gel electrophoresis showed a peak of malathion carboxylesterase, 60-fold higher from resistant than from susceptible larvae, in a gel zone which did not stain for general esterase activity. General esterases that did not hydrolyze malathion showed different electrophoretic patterns in the two populations, which are likely due to the nonisogenic character of the strains. These results show that use of a specific assay and the demonstration of degradation of malathion in vivo are essential for assessment of the contribution of esterase activity to the malathion-resistant phenotype in mosquito populations.  相似文献   

Esterase-mediated malathion resistance in the human head louse, Pediculus capitis (Anoplura: Pediculidae)     

Jian-Rong Gao  Kyong Sup Yoon  Gerald C. Coles 《Pesticide biochemistry and physiology》2006,85(1):28-37

Resistance in a dual malathion- and permethrin-resistant head louse strain (BR-HL) was studied. BR-HL was 3.6- and 3.7-fold more resistant to malathion and permethrin, respectively, compared to insecticide-susceptible EC-HL. S,S,S-Tributylphosphorotrithioate synergized malathion toxicity by 2.1-fold but not permethrin toxicity in BR-HL. Piperonyl butoxide did not synergize malathion or permethrin toxicity. Malathion carboxylesterase (MCE) activity was 13.3-fold and general esterase activity was 3.9-fold higher in BR-HL versus EC-HL. There were no significant differences in phosphotriesterase, glutathione S-transferase, and acetylcholinesterase activities between strains. There was no differential sensitivity in acetylcholinesterase inhibition by malaoxon. Esterases from BR-HL had higher affinities and hydrolysis efficiencies versus EC-HL using various naphthyl-substituted esters. Protein content of BR-HL females and males was 1.6- and 1.3-fold higher, respectively, versus EC-HL adults. Electrophoresis revealed two esterases with increased intensity and a unique esterase associated with BR-HL. Thus, increased MCE activity and over-expressed esterases appear to be involved in malathion resistance in the head louse.  相似文献   

Detoxication capacity in the honey bee,Apis mellifera L     

S.J. Yu  F.A. Robinson  J.L. Nation 《Pesticide biochemistry and physiology》1984,22(3):360-368

Various detoxifying enzymes, including microsomal oxidases, glutathione S-transferases, esterases, epoxide hydrolase, and DDT-dehydrochlorinase, were assayed in adult worker bees (Apis mellifera L.) using midguts as the enzyme source. A cell-free system was used for all enzyme assays, except that microsomal oxidases required intact midgut because of the inhibitor encountered. Midgut microsomal preparations contained mainly cytochrome P-420, the inactive form of cytochrome P-450, which may explain the low microsomal oxidase activity in microsomes. All enzymes studied were active, suggesting that the high susceptibility of honey bees to insecticides is not due to low detoxication capacity. Sublethal exposure of honey bees to various insecticides had no effect on these enzyme activities, with the exception of permethrin which significantly stimulated the glutathione S-transferase, and malathion, which significantly inhibited the α-naphthylacetate esterase and carboxylesterase.  相似文献   

Dual role of esterases in insecticide resistance in the green rice leafhopper     

N. Motoyama  L.R. Kao  P.T. Lin  W.C. Dauterman 《Pesticide biochemistry and physiology》1984,21(2):139-147

The role of esterases as related to insecticide resistance was studied in an organophosphorus (OP)-resistant strain of the green rice leafhopper. As judged by p-nitrophenyl acetate hydrolysis, 21, 5, and 74% of the esterase activity was located in nuclei/mitochondria, microsomes, and the soluble fraction, respectively. All the fractions were active in hydrolyzing malathion, paraoxon, and fenvalerate. Hydrolysis of malathion and fenvalerate increased with time while that of paraoxon reached a plateau within 15 min. Since a considerable amount of p-nitrophenol was detected in the paraoxon reaction at 0°C and at zero time, the formation of p-nitrophenol may be due to phosphorylation of the esterases rather than phosphorotriesterase action. The results suggest a dual role for esterases in resistance mechanisms; a catalyst for hydrolysis of malathion and fenvalerate, and a binding protein for the oxygen analogs of other OP insecticides, both of which would protect the intrinsic target, acetylcholinesterase, from inhibition. Chromatofocusing of the soluble fraction resolved five esterase peaks, I–V. These esterases were active toward the three general substrates as well as for the three insecticides tested, except for Peak I in which the overall activity was too low. Thin-layer agar gel electrophoresis showed that the chromatofocusing peaks I–V corresponded to the electrophoretic bands E₁–E₅, some of which were previously shown to be associated with OP resistance. The dual role of these esterases may explain the cross-resistance between malathion and other OP insecticides as well as synergism between OP and carbamate insecticides.  相似文献   

Separation and characterization of the pyrethroid-hydrolyzing esterases of the cattle tick, Boophilus microplus     

John De Jersey  James Nolan  Patricia A. Davey  Peter W. Riddles 《Pesticide biochemistry and physiology》1985,23(3):349-357

The principal esterases present in homogenates of cattle tick larvae have been separated by gel filtration and preparative isoelectric focusing. Substrate specificities have been determined using trans-permethrin, trans-cypermethrin, p-nitrophenyl butyrate, and the pyrethroid analog, p-nitrophenyl-(1R,S)-3-(2,2-dichlorovinyl)-2,2-dimethylcyclopropanecarboxylate (t-NPDC). One of the esterases, with pI = 4.6, and molecular weight ～67,000, hydrolyzed the α-cyano-substituted pyrethroid, trans-cypermethrin, but not permethrin. The major esterase activity was found in the pI 5.6–5.8 region, and corresponded to a molecular weight of ～89,000. Small differences in substrate specificity and differences in the banding pattern after isoelectric focusing were detected between esterases of ticks of a pyrethroid-resistant strain (Malchi) and a pyrethroid-susceptible strain (Yeerongpilly). Rate constants were determined for the inhibition of the different esterases by the organophosphate coroxon and by naphthyl N-propylcarbamate, using p-nitrophenyl butyrate and t-NPDC as substrates.  相似文献   

An unusual type of malathion-carboxylesterase in a Japanese strain of house fly     

Maria I.Picollo de Villar  L.J.T. van der Pas  H.R. Smissaert  F.J. Oppenoorth 《Pesticide biochemistry and physiology》1983,19(1):60-65

It had been reported that a Japanese multiple-resistant strain of house fly, Hirokawa, had a high malathion-carboxylesterase activity as well as a normal level of esterase activity to α-naphthylacetate (NA). This is different from the situation in several other malathion-resistant strains, where high malathion-carboxylesterase activity goes together with a low level of activity to α-NA. This had been explained by the so-called “mutant ali-esterase theory,” which assumed that the opposite changes in activity to malathion and α-NA were the result of one and the same change in an ali-esterase. In the Hirokawa strain the esterase degrading malathion seems to be responsible for about 64% of the activity to α-NA. This was concluded since the two activities were equally sensitive to denaturation and to two organophosphorus inhibitors. Moreover activity of malathion was inhibited by α-NA, and that of α-NA by malathion. Most of the latter activity was inhibited competitively. Inhibition of activity to malathion was lower, however, than to be expected on the basis of competitive mutual inhibition. This case of resistance to malathion therefore seems to involve a different kind of “mutant ali-esterase” than in other strains. Increased hydrolysis of the insecticide seems to be achieved without loss of activity to α-NA, although K_m is different. The strain further showed an unusually high β-NA hydrolysis and malaoxon-carboxylesterase activity (about 3- and 200-fold, respectively, that of another malathion-resistant strain G).  相似文献   

Further studies on the genetics of the carboxylesterase regulatory system involved in resistance to organophosphorus insecticides in Myzus persicae (Sulzer)     

Roger L. Blackman  Alan L. Devonshire 《Pest management science》1978,9(6):517-521

Levels of carboxylesterase activity in F₁ clones of Myzus persicae, obtained by crossing sexuales from a resistant, high esterase clone with those from a susceptible, low esterase clone, fell into two distinct groups intermediate between the levels of carboxylesterase in the parent clones. When sexuales of F₁ clones of the lower of these two intermediate levels of carboxylesterase activity were crossed, segregation ratios in the F₂ generation indicated that this lower intermediate activity level (about 0.4 μmol mg^?1 h^?1). which is about twice the level in susceptible clones, is due to mutation at a single regulatory locus. The results obtained with backcrosses, between sexuales of an F₁ clone having the higher intermediate level of carboxylesterase activity and a parent susceptible, low esterase clone, suggest that a second locus may be involved in the expression of higher levels of esterase activity.  相似文献   

Toxicokinetics of Malathion in Larval Stages of the Toad Bufo arenarum (Hensel): Effect of Exogenous Spermidine     

Andres Venturino  Lidia Gauna  Rosa M. Bergoc  Ana M. Pechen de D'Angelo 《Pesticide biochemistry and physiology》2001,70(3):142

The aim of this work was to study the absorption, biotransformation, and excretion of malathion (¹⁴C-methoxy) and its metabolites in larval stages of the toad Bufo arenarum (Hensel). Also, changes in malathion metabolization by the action of the exogenous polyamine spermidine were studied. Malathion clearance from the media was uniexponential, and spermidine reduced the uptake in the larvae, causing an increase in the apparent half-life of the toxicant. Concomitant with this effect, spermidine increased the level of induction of mixed-function oxidases due to malathion and caused a progressively higher malaoxon/malathion ratio. As a consequence of the higher conversion to the active metabolite malaoxon, spermidine also provoked a significant enhancement in the inhibitory effect of Malathion on acetylcholinesterase activity. [methoxy¹⁴C]malathion metabolites, such as carboxylesterase and glutathione S-transferase products, were detected in the toad larvae and in the media. The excreted products of carboxylesterase activity were about 70% of the total radioactivity, and the glutathione S-transferase products (methyl glutathione) were 20–30% of the total radioactivity. No significant variations in the levels of excreted products due to the action of exogenous spermidine were detected. Malathion inhibited carboxylesterase activity, independent of the presence of spermidine in the media. In turn, glutathione S-transferase activity was induced by spermidine, but was not affected by the exposure to low concentrations of malathion for 48 h. We conclude that the presence of spermidine in the medium modifies malathion toxicokinetics, increasing its toxicity in B. arenarum larvae.  相似文献   

Characterization of malathion resistance in a Mexican population of Rhizopertha dominica     

Raul Narciso C. Guedes  Kun Yan Zhu 《Pest management science》1998,53(1):15-20

Malathion resistance of a field-collected population of Rhizopertha dominica (Coleoptera: Bostrichidae) from Mexico was evaluated and the resistance mechanisms were characterized both in vivo and in vitro. The Mexican population showed a resistance level of 50-fold at LC₅₀ as compared with that of a susceptible laboratory population. Malathion bioassays with the synergists triphenyl phosphate, piperonyl butoxide and diethyl maleate suggested that esterases were likely to contribute to the resistance whereas cytochrome P450 monooxygenases and glutathione S-transferases were not. In-vitro assays of esterases indicated that the general esterase activity was 1·3-fold higher in the Mexican population than in the susceptible population. However, the phosphotriesterase activity in the resistant population was 3·7-fold higher than in the susceptible population. Significantly higher phosphotriesterase activity in the resistant population was further indicated by 3·4-fold increase of V_max in enzyme kinetics and higher frequency of individuals with high phosphotriesterase activity in this population. All these findings suggested that phosphotriesterases play a role in malathion resistance in the Mexican population of lesser grain borer. © 1998 SCI  相似文献   

Partial purification and characterization of a methyl-parathion resistance-associated general esterase in Diabrotica virgifera virgifera (Coleoptera: Chrysomelidae)     

Xuguo Zhou  Gautam Sarath  Laurence D. Chandler 《Pesticide biochemistry and physiology》2004,78(2):114-125

Increased hydrolytic metabolism of organophosphate insecticides has been associated with resistance among Nebraska western corn rootworm populations. In this study, resistance-associated esterases were partially purified by differential centrifugation, ion exchange, and hydroxyapatite column chromatography, with a final purification factor of 100-fold and recovery of approximately 10%. Kinetic analysis of the partially purified enzyme indicated that the K_m of the group II esterases was identical for the two populations, although V_max was consistently threefold higher in the resistant population. A putative esterase, DvvII, was further purified to homogeneity by preparative polyacrylamide gel electrophoresis. DvvII is a monomer with a molecular weight of approximately 66 kDa, although three distinct isoforms with similar pIs were evident based on isoelectric focusing gel electrophoresis. Immunoassays with the Myzus persicae E4 antiserum indicated that group II esterases from D. v. virgifera were cross-reactive and expressed at much higher titers in the resistant population relative to the susceptible counterpart. These results suggest that the resistance is likely associated with overproduction of an esterase isozyme in resistant D. v. virgifera populations.  相似文献   

鱼类肝脏酯酶的同工酶构成及其对磷酸三苯酯和马拉氧磷的敏感性     

李少南  樊德方 《农药学学报》1999,1(1):57-61

用聚丙烯酰胺凝胶电泳法分离了麦穗鱼 (Pseudorasbora p arva)、金鱼 (Carassius auratus)、尼罗罗非鱼 (Tilapja nilotica)、食蚊鱼 (Gambusia affinis)、虹鳟 (Salmo gairdneri)等五种鱼的肝脏酯酶的同工酶 ,以乙酸α-萘酯为底物测定了它们的活性。在麦穗鱼、金鱼、尼罗罗非鱼体内发现两条酶带 ,在食蚊鱼和虹鳟体内发现一条酶带。离体抑制率实验表明 ,五种鱼肝脏内均含有对磷酸三苯酶敏感的酶带 ,而对马拉氧磷敏感的酶带只存在于麦穗鱼、金鱼、尼罗罗非鱼体内。酯酶同工酶分布型的意义及与马拉硫磷选择毒性的关系在本文中进行了讨论。  相似文献   

Selective inhibition of separate esterases in rat and mouse liver microsomes hydrolyzing malathion,trans-permethrin,and cis-permethrin     

David M. Soderlund  Yehia A.I. Abdel-Aal  Donald W. Helmuth 《Pesticide biochemistry and physiology》1982,17(2):162-169

Separate esterase activities of rat and mouse liver microsomes hydrolyzing malathion, trans-permethrin, and cis-permethrin were differentiated on the basis of their sensitivities to inhibition by paraoxon and α-naphthyl N-propylcarbamate (NPC). In rat liver microsomes, the malathionhydrolyzing activity was more sensitive to both inhibitors and showed a different time course of NPC inhibition than the activities hydrolyzing the permethrin isomers. Paraoxon completely inhibited trans-permethrin hydrolysis, but only partially inhibited that of cis-permethrin. The paraoxonsensitive trans- and cis-permethrin-hydrolyzing activities were not differentially inhibited, but separate inhibition curves were obtained for the inhibition of trans- and cis-permethrin hydrolysis by NPC. The mouse liver esterase activity hydrolyzing trans-permethrin showed a similar paraoxon sensitivity to that of rat liver, but that the paraoxon-sensitive portion of the cis-permethrinhydrolyzing activity was 5.5-fold less sensitive to paraoxon than the corresponding rat liver activity and was clearly differentiated from the mouse liver trans-permethrin-hydrolyzing activity. The mouse liver malathion-hydrolyzing activity was 100-fold less sensitive to paraoxon and 14-fold less sensitive to NPC than the corresponding rat liver activity. Rat and mouse liver esterase activities hydrolyzed trans- and cis-permethrin at similar rates under standard assay conditions, but mouse liver esterases were 10-fold less active in hydrolyzing malathion. The higher specific activity of rat liver malathion-hydrolyzing esterases resulted from the greater apparent affinity and maximum velocity for malathion hydrolysis. These results demonstrate that the hydrolysis of malathion, trans-permethrin, and cis-permethrin by rat and mouse liver microsomal preparations involves several esterases with differing substrate specificities and inhibitor sensitivities.  相似文献   

Characterizations of general esterases in relation to malathion susceptibility in two field populations of the oriental migratory locust, Locusta migratoria manilensis (Meyen)     

Yan-Ping He  Kun Yan Zhu 《Pesticide biochemistry and physiology》2004,78(2):103-113

General esterases were characterized and compared from two populations of the oriental migratory locust, Locusta migratoria manilensis, collected from Huanghua and Pingshan Counties, Hebei Province, China. General esterases were most concentrated in the thorax and abdomen, which contained 46.1 and 36.1% of total esterase activity in females, and 42.7 and 36.0% in males, respectively, when α-naphthyl acetate was used as a substrate. There was no distinct difference in esterase banding patterns in different body regions for the substrates α-naphthyl acetate and β-naphthyl acetate on non-denaturing polyacrylamide gel electrophoresis (PAGE). However, the general esterase activities in the Huanghua population were 1.8-fold higher than those in the Pingshan population in both females and males. Increased esterase activity in the Huanghua population appeared to be mainly due to several additional esterase bands detected on non-denaturing PAGE. Inhibition studies of general esterases using four inhibitors, including paraoxon, malaoxon, eserine, and carbaryl, indicated that most general esterases in the two populations were B-type. The increased esterase activity in the Huanghua population appeared to be associated with a 1.8-fold decreased susceptibility to malathion. Such differences may attribute to the difference in control practices for the locust between Huanghua and Pingshan Counties.  相似文献   

Overexpression of carboxylesterase gene associated with organophosphorous insecticide resistance in cotton aphids, Aphis gossypii (Glover)   总被引：1，自引：0，他引：1  

Chuan-Wang Cao  Jing Zhang  Xi-Wu Gao  Pei Liang  Hui-Lin Guo 《Pesticide biochemistry and physiology》2008,90(3):175-180

  相似文献   

Communication to the Editor Insecticide Resistance in a Strain of Aphis gossypii from Southern France     

Robert Delorme  Danielle Aug  Marie-Thrse Bthenod  Franois Villatte 《Pest management science》1997,49(1):90-96

A strain (R) of Aphis gossypii from Southern France was found to be resistant to several insecticides, particularly to pirimicarb, as compared to a susceptible strain (S). Resistance levels were determined by biological tests, and the highest resistance factor (1350) was for pirimicarb. Resistance was mainly restricted to anticholinesterase inhibitors. Use of synergists, DEF and PB, suggested that resistance mechanisms based on detoxification were involved to a minor extent, since a good correlation was observed between I₅₀ values and k_i values of AChE and in-vivo bioassay data. The two strains differed in esterase activity, with a 27·7-fold increase in the R strain. Resolution of esterases by polyacrylamide gel electrophoresis showed different patterns in the S and R strains, and two isozymes were less sensitive to pirimicarb in the S strain; however, no in-vitro degradation of [¹⁴C]pirimicarb was observed. These data suggest that the main mechanism of resistance was through a decrease in the sensitivity of the target, AChE, to the insecticides. © 1997 SCI.  相似文献   

Esterase isozymes in Lygus hesperus: Characterization and relationship with organophosphate resistance     

Gang Xu  William A. Brindley 《Pest management science》1994,42(4):273-280

Esterases of Lygus hesperus Knight from five field and one laboratory populations were separated by non-denaturing polyacrylamide gel electrophoresis and were characterized for inhibition and substrate specificity. There were six zones of esterase activity toward naphthyl ester substrates. Significant inter- and intra-populational polymorphisms were observed. All the isozymes were carbo-xylesterases that were sensitive to inhibition by paraoxon and insensitive to eserine or EDTA (ethylenedinitrilotetraacetic acid). Carboxylesterases from L. hesperus more readily hydrolysed naphthyl esters with short side chains. Molecular weight estimation by non-denaturing polyacrylamide gel electrophoresis revealed that Est-1, the specific band of older females and eggs, contained two enzymes with relative molecular masses of 140000 and 112000. The four esterase allozymes in Est-3 had an average relative molecular mass of approximately 106000. The frequency of one putative allozyme in Est-3 was directly correlated with the LC₅₀ values of trichlorfon (to which L. hesperus has become resistant). The developmental and distribution variability of the esterase isozymes are compared.  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   

Multiple forms of esterases in mouse,rat, and rabbit liver,and their role in hydrolysis of organophosphorus and pyrethroid insecticides     

L.R. Kao  N. Motoyama  W.C. Dauterman 《Pesticide biochemistry and physiology》1985,23(1):66-73

Six to seven esterases from mouse, rat, and rabbit liver microsomes were resolved by chromatofocusing in the pH range 7–4. Each esterase peak showed a different substrate specificity pattern with the substrates evaluated. Malathion and paraoxon hydrolysis always corresponded with p-nitrophenyl acetate and methylthiobutyrate hydrolysis, whereas the pattern of fenvalerate hydrolysis was more complicated. Phosphorotriester hydrolase activity was isolated, and was found to be more specific toward paraoxon than toward the other insecticides. Time-course studies of paraoxon hydrolysis indicated that the hydrolysis of paraoxon by carboxylesterase was an inhibitory reaction. This reaction and phosphorotriester hydrolase activity can serve as a detoxication reaction toward organophosphate insecticides.  相似文献