邯郸地区棉铃虫抗药性的一些生物化学特性(英文)

对河北邯郸地区的抗性棉铃虫(Helicovrpa armigera H(?)bner)种群不同发育阶段乙酰胆碱酯酶(AChE)对灭多威和对氧磷的敏感磷的敏感度结果表明:4-5龄幼虫的AChE在棉铃虫整个发育期中敏感度是最低的,成虫期的AChE最敏感,蛹期AChE平均敏感度低于幼虫期。用甲基对硫磷和灭多威以LD_5的诱导剂量和LD_(50)的选择剂量处理棉铃虫幼虫后,AChE对底物的亲和力和对抑制剂的敏感度发生了明显的变化,水解β-乙酸萘酯的羧酸酯酶对底物的亲和力明显提高,而水解α-乙酸萘酯的羧酸酯酶对底物的亲和力在处理后24小时无明显改变。谷胱甘肽-S-转移酶活性,低剂量诱导组最高降低至78％和43％,而高剂量选择组提高15％,诱导组和选择组对底物的亲和力均明显降低,处理的剂量和处理后时间明显地影响棉铃虫磷酸酯酶的活性及其对底物的亲和力。     

松毛虫赤眼蜂和螟黄赤眼蜂羧酸酯酶性质比较研究

该文对松毛虫赤眼蜂Trichogramma dendrolimi和螟黄赤眼蜂T.Chilonis羧酸酯酶的毒理学和生物化学性质进行了初步研究。由时间进程曲线确定了赤眼蜂羧酸酯酶活性测定中的最适反应时间为40min。对两种赤眼蜂单头羧酸酯酶活性的测定表明,松毛虫赤眼蜂羧酸酯酶活性主要分布在0—1OD/(mg·min)之间,而螟黄赤眼蜂羧酸酯酶活性主要分布在1-4OD/(mg·min)之间。比较两种赤眼蜂羧酸酯酶米氏常数(K_m)值,螟黄赤眼蜂羧酸酯酶对底物的亲和力比松毛虫赤眼蜂羧酸酯酶对底物的亲和力高。对氧磷对螟黄赤眼蜂和松毛虫赤眼蜂羧酸酯酶的抑制作用没有明显差异,而对氧磷对松毛虫赤眼蜂羧酸酯酶的抑制作用明显强于磷酸三苯酯(TPP)。该文还将棉铃虫Helicoverpa armigera (Hubner)羧酸酯酶部分性质与两种赤眼蜂作了比较。     

云南烟蚜抗药性机制研究

通过比较云南烟蚜敏感品系和抗性品系的解毒酶(α-乙酸萘酯羧酸酯酶、β-乙酸萘酯羧酸酯酶)和靶标酶(乙酰胆碱酯酶)的活力,研究了烟蚜对有机磷、拟除虫菊酯和氨基甲酸酯类杀虫剂抗性的生化机制,并通过酯酶基因扩增检测和钠离子通道突变检测,研究了其抗性的分子机制。结果表明:α-乙酸萘酯羧酸酯酶活力增强是烟蚜对有机磷类、氨基甲酸酯类杀虫剂及拟除虫菊酯类杀虫剂的抗性机制之一;乙酰胆碱酯酶在烟蚜对有机磷杀虫剂抗性中起重要作用;3个抗性品系烟蚜均没有发生酯酶基因扩增,抗拟除虫菊酯品系烟蚜发生了钠离子通道突变。     

繁殖寄主对赤眼蜂羧酸酯酶和乙酰胆碱酯酶的影响

通过测定赤眼蜂Trichogramma羧酸酯酶和乙酰胆碱酯酶的活性、对底物的亲和力以及对抑制剂的敏感度研究了繁殖寄主对松毛虫赤眼蜂T.dendrolimi和螟黄赤眼蜂T.chilonis的影响。柞蚕卵和米蛾卵繁殖的赤眼蜂羧酸酯酶对底物的亲和力有不同程度的影响,柞蚕卵繁殖的赤眼蜂羧酸酯酶对α-乙酸萘酯或β-乙酸萘酯的亲和力最高是米蛾卵的2倍以上。繁殖寄主对乙酰胆碱酯酶对底物亲和力没有明显的影响。米蛾卵繁殖的松毛虫赤眼蜂羧酸酯酶活性明显高于柞蚕卵繁殖的种群,而米蛾卵繁殖的螟黄赤眼蜂种群羧酸酯酶的活性明显低于柞蚕卵繁殖的种群。用柞蚕卵繁殖的松毛虫赤眼蜂种群对对氧磷的敏感度明显低于米蛾卵繁殖的种群,而增效磷则正好相反。繁殖寄主对松毛虫赤眼蜂吉林种群乙酰胆碱酯酶对DDVP和毒扁豆碱的敏感度没有明显的影响,而在松毛虫赤眼蜂广东种群和螟黄赤眼蜂中,柞蚕卵繁殖的种群乙酰胆碱酯酶对DDVP和毒扁豆碱的敏感度明显低于米蛾卵繁殖的种群。     

棉蚜对有机磷杀虫剂抗性的生化机理

本文对有机磷抗性和感性棉蚜Aphis gossypii三个种群抗性生化机制进行了讲究.首先用解毒酶的抑制剂测定药剂的解毒途径.进一步测定乙酰胆碱酯酶活力及其敏感性和多功能氧化酶、谷胱甘肽s-转移酶、α-乙酸萘酯酶和α-乙酸萘酯羧酸酯酶等解毒酶的活力.结果表明,体内条件下,多功能氧化酶与抗性有关,但在离体条件下,在棉蚜匀浆液中有内源抑制剂存在.α-乙酸萘酯酶和α-乙酸萘酯羧酸酯酶活力的增加,乙酰胆碱酯酶对杀虫剂敏感性的降低也是造成棉蚜对有机磷产生抗性的原因.     

新疆棉铃虫对溴氰菊酯和硫丹 抗性的生化机理研究

通过生物测定和生化分析研究了新疆棉铃虫Helicoverpa armigera (Hübner)敏感种群和室内筛选获得的抗性种群对硫丹和溴氰菊酯的反应及其α-乙酸萘酯酶和乙酰胆碱酯酶的动态活性反应。结果表明,筛选后新疆棉铃虫对硫丹和溴氰菊酯产生的抗性倍数分别为13倍和66倍。两个抗性种群的α-乙酸萘酯酶和乙酰胆碱酯酶比活力均高于敏感种群。相应杀虫剂预处理后,α-乙酸萘酯酶酶活力受到抑制。抗性种群的α-乙酸萘酯酶对底物的亲和力高于敏感种群,但Vmax低于敏感种群。抗性种群的乙酰胆碱酯酶对底物的亲和力显著低于敏感种群,Vmax比敏感种群高。聚丙烯酰胺凝胶电泳显示,两个抗性种群都有一条特异性酶带,其迁移率相近,且均可被甲基对氧磷抑制。因此推测,α-乙酸萘酯酶参与了新疆棉铃虫对硫丹和溴氰菊酯的抗性,具有代谢和阻断作用;乙酰胆碱酯酶对抗性的产生也起到了重要作用。     

杀虫药剂和植物次生性物质对棉铃虫羧酸酯酶的诱导作用

棉铃虫Helzcoverpa armigera中肠羧酸酯酶(CarEs)比活力随幼虫发育阶段呈有规律的变化。5日龄以前CarEs比活力增长比较缓慢,5日龄以后Cares比活力快速增长,8日龄开始CarEs比活力下降,直到预蛹期,CarEs比活力又开始上升。用聚丙烯酰胺凝胶电泳分离到的9条同功酶带中,E2、E4、E5、E6、E7和E9对β-乙酸萘酯(β-NA)的水解活性高于对a—乙酸萘酯(a-NA),E1、E3、和E8对上述两种底物的水解活性正好相反,对a-NA活性高于对β-NA。低剂量的对硫磷、马拉硫磷、倍硫磷、增效磷(SVl)、灭多威和溴氰菊酯对棉铃虫中肠CarEs比活力和对底物的亲和力具有明显的影响。药剂处理后48 h,Cares的比活力明显降低,对底物的亲和力则与药剂的种类有关。马拉硫磷处理后48h,在观察到的6条主要同功酶带中,E3的活性明显降低,其次是E6、E2和E1;而E5的活性则明显升高,斟的活性也有所升高。用含0.01%的芸香苷、2-十三烷酮和槲皮素的人工饲料饲养棉铃虫经2代或7代后,CarEs比活力均明显升高。     

白纹伊蚊溴氰菊酯抗性和敏感品系羧酸酯酶性质比较

本文对白纹伊蚊Aedes albopictus溴氰菊酯抗性品系和敏感品系羧酸酯酶的生物化学性质进行了比较。白纹伊蚊抗性品系和敏感品系羧酸酯酶随底物浓度(α-乙酸萘酯或β-乙酸萘酯)的变化比活力变化趋势一致,但抗性品系对这2种底物的比活力均高于敏感品系,抗性品系羧酸酯酶的米氏常数和最大反应速度与敏感品系有显著差异。胆碱酯酶抑制剂测定结果表明,抗性品系羧酸酯酶对敌敌畏和磷酸三苯酯的敏感性高于敏感品系,对残杀威的敏感性低于敏感品系。2个品系羧酸酯酶对脱叶磷的敏感性差异不大。说明羧酸酯酶可能与白纹伊蚊对溴氰菊酯抗性有关。     

东亚飞蝗山西两地理种群酯酶特性的比较研究

对东亚飞蝗山西临猗和永济2个地理种群的酯酶特性进行了比较研究。非变性聚丙烯酰胺凝胶电 泳图谱显示：以α-乙酸萘酯为底物染色,2个东亚飞蝗种群谱带差别不明显。但是,酯酶动力 学研究结果表明：以α-乙酸萘酯和α-丁酸萘酯为底物时,永济种群的酯酶活性分别是临猗 种群的1.81倍和1.20倍。永济种群酯酶活性的增高可能与非变性聚丙烯酰胺凝胶电泳图谱显 示出较临猗种群多出的酶带有关。体外酯酶抑制动力学研究表明：永济和临猗2种群所含酯酶大 都为B型酯酶,其含量分别为84.94%和91.47%。永济种群对对氧磷的耐受性要高于临猗种群 ,我们推测可能与2种群马拉硫磷使用背景不同有关。     

库蚊羧酸酯酶研究进展

在昆虫对有机磷杀虫剂抗性的研究中 ,羧酸酯酶 (ｃａｒｂｏｘｙｌｅｓｔｅｒａｓｅｓ)的过量产生是库蚊对有机磷杀虫剂 (ＯＰ)产生抗性的主要机制。羧酸酯酶能够与进入昆虫体内的有机磷杀虫剂快速结合 ,将杀虫剂在到达靶标作用位点前阻隔或降解 ,使其无法发挥原有的杀伤效用。1 .羧酸酯酶的命名库蚊中羧酸酯酶的命名一般根据其水解α 和 β 乙酸萘酯的先后顺序和电泳迁移率不同而定 ;在淀粉电泳中 ,当等量α 乙酸萘酯(α ＮＡ)和 β 乙酸萘酯 (β ＮＡ)同时存在时 ,优先水解α ＮＡ呈蓝色的为酯酶Ａ ,优先水解 β ＮＡ呈红色的为酯酶Ｂ[1] …     

Tissue-specific inhibition and recovery of esterase activities in Lumbricus terrestris experimentally exposed to chlorpyrifos

Exposure and effect assessment of organophosphate (OP) pesticides generally involves the use of cholinesterase (ChE) inhibition. In earthworm, this enzyme activity is often measured in homogenates from the whole organism. Here we examine the tissue-specific response of ChE and carboxylesterase (CE) activities in Lumbricus terrestris experimentally exposed to chlorpyrifos-spiked field soils. Esterases were measured in different gut segments and in the seminal vesicles of earthworms following acute exposure (2 d) to the OP and during 35 d of a recovery period. We found that inhibition of both esterase activities was dependent on the tissue. Cholinesterase activity decreased in the pharynx, crop, foregut and seminal vesicles in a concentration-dependent way, whereas CE activity (4-nitrophenyl valerate) was strongly inhibited in these tissues. Gizzard CE activity was not inhibited by the OP, even an increase of enzyme activity was evident during the recovery period. These results suggest that both esterases should be determined jointly in selected tissues of earthworms. Moreover, the high levels of gut CE activity and its inhibition and recovery dynamic following OP exposure suggest that this esterase could play an important role as an enzymatic barrier against OP uptake from the ingested contaminated soil.     

亚洲小车蝗痘病毒与化学杀虫剂混用的杀虫效果及对寄主主要解毒酶活性的影响

亚洲小车蝗痘病毒（Oedaleus asiaticus entomopoxvirus, OaEPV）作为一种增效剂,分别与马拉硫磷、毒死蜱、高效氯氰菊酯、氟氯氰菊酯 、溴氰菊酯化学杀虫剂混合饲喂亚洲小车蝗若虫,统计致死中浓度 LC₅₀ 和其混合使用后的增效比;测定虫体内与抗性有关的两种重要酶——羧酸酯酶（CarE）和谷胱甘肽 S-转移酶（GSTs）的比活力。结果表明：OaEPV 与化学杀虫剂混合饲喂亚洲小车蝗,OaEPV 与毒死蜱 、高效氯氰菊酯、氟氯氰菊酯、溴氰菊酯混用对亚洲小车蝗无明显的增效作用,OaEPV 与马拉硫磷混用,具有一定的增效作用,增效比为 1.42 倍。混剂感染亚洲小车蝗,除与溴氰菊酯混用外,虫体的中肠部位 CarE 的比活力都受到了明显的抑制作用,其中 OaEPV 与马拉硫磷混用下降了 4.21 倍,抑制作用最大。当 OaEPV 与氟氯氰菊酯、溴氰菊酯化学杀虫剂混用后,中肠部位 GSTs 受到了明显的抑制作用,而其脂肪体部位 CarE 和 GSTs 的变化无一定的规律性。结果提示痘病毒与农药混合处理时,病毒主要通过抑制中肠部位 CarE 比活力而增加了农药的杀虫效果。     

棉蚜抗氧化乐果品系及敏感品系羧酸酯酶性质的比较

在室内用氧化乐果逐代筛选的棉蚜抗性品系,相对于敏感品系的抗性倍数是17。用α-乙酸萘酯（α-NA）、α-丁酸萘酯（α-NB）、α-磷酸萘酯（α-NP）和β-磷酸萘酯（β-NP）作底物比较研究了氧化乐果抗性和敏感品系棉蚜Aphis gossypii羧酸酯酶的比活力、米氏常数（K_m）和最大反应速度V_max）等有关的动力学常数。以α-NA和α-NB作底物时,抗性品系棉蚜的比活力显著低于敏感品系的;以α-NP和β-NP作底物时,两个品系棉蚜的比活力、K_m和V_max没有明显差异。用α-NA、β-NA作底物染色做酯酶同工酶电泳,抗性品系棉蚜的酯酶同工酶染色比敏感品系棉蚜的浅。     

棉铃虫羧酸酯酶基因的克隆、序列分析及组织表达

为了从分子水平上研究棉铃虫Helicoverpa armigera (Hübner) 对杀虫剂抗性的产生机理,本文通过RT PCR和RACE方法首次从棉铃虫中肠中克隆了一个羧酸酯酶全长cDNA序列。序列分析表明,该基因包含一个1 794 bp的开放读码框,129 bp的5′UTR和139 bp的3′UTR区域。该基因编码597个氨基酸, 推测编码蛋白质的等电点pI为4.92,分子量为67.1 kD,GenBank登录号为EF547544。通过对氨基酸的同源性分析表明,该羧酸酯酶与斜纹夜蛾Spodoptera litura羧酸酯酶的同源性最高,达60%。半定量RT-PCR分析表明,该基因在中肠组织中表达量最高,在脂肪体和生殖腺中表达量较低,在头部则不表达。推测该羧酸酯酶基因可能主要参与棉铃虫对外源物质的解毒代谢。     

Molecular mechanism of synthetic pyrethroid and organophosphate resistance in field isolates of <Emphasis Type="Italic">Rhipicephalus microplus</Emphasis> tick collected from a northern state of India

The frequently used chemical control method to manage Rhipicephalus microplus is limited by the emergence of resistance populations. Understanding of resistance mechanisms is essential to develop strategy for sustainable management. The present study was focused on working out the molecular mechanisms of resistance against synthetic pyrethroids (SPs) and organophosphates (OPs) in field isolates of R. microplus collected from six districts of Uttar Pradesh, India. Adult immersion test with discriminating concentrations (AIT-DC) was used to determine resistance status of isolates to SPs (deltamethrin, cypermethrin) and OPs (diazinon, coumaphos). All the six isolates were found resistant to SPs with resistance factor (RF) of 2.9–58.6 and to one of the OP compounds, diazinon having RF of 3.5–13.7 but susceptible to coumaphos (RF?<?1.4). Three R. microplus genes, viz. para-sodium channel domain II S4-5 linker, carboxylesterase (372 bp) and acetylcholinesterase 2 (1692 bp) were sequenced and compared with respective sequences of reference susceptible IVRI-I, reference OP resistant population (IVRI-III), IVRI-IV and multi-acaricide resistant population (IVRI-V) of R. microplus. A C190A mutation in the domain II S4-5 linker region of sodium channel gene leading to L64I amino acid substitution was detected in all six isolates. The G1120A mutation in the carboxylesterase gene could not be detected in any isolate. Five nucleotide substitutions viz., G138A, G889A, T1090A, C1234T and G1403A were identified in the acetylcholinesterase 2 gene leading to four amino acid substitutions. The findings of the study corroborate the role of mutation in sodium channel and acetylcholinesterase 2 genes in SP and OP resistance in this part of India.     

七种抑制剂对两种白蚁谷胱甘肽S-转移酶活性抑制作用的比较

利用分光光度酶动力学方法,确定了白蚁谷胱甘肽S-转移酶（GSTs）的最适反应条件,并进一步研究了7种抑制剂对黑翅土白蚁Odontotermes formosanus (Shiraki)和黑胸散白蚁Reticulitermes chinensis Snyder GSTs活性的体外影响。结果表明：白蚁GSTs测定的最适反应条件为pH 6.5,温度25℃,最适反应时间2 min。黑翅土白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.11±0.02 mmol/L和0.81±0.16 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为425.92±19.67 nmol/(min·mg)和534.86±39.05 nmol/(min·mg)。黑胸散白蚁GSTs的米氏常数(K_mCDNB和K_mGSH)分别为0.12±0.03 mmol/L和1.03±0.31 mmol/L,最大反应速度(V_maxCDNB和V_maxGSH)分别为544.39±37.19 nmol/(min·mg)和715.45±83.68 nmol/(min·mg)。浓度为2×10^-5 mol/L时,槲皮素和辛硫磷对黑胸散白蚁GSTs活性的抑制作用要强于黑翅土白蚁,对黑胸散白蚁GSTs活性的抑制作用分别为62.28％和44.89％,对黑翅土白蚁GSTs活性的抑制作用分别为54.96％和28.36％。高效氯氰菊酯、甲氰菊酯、啶虫脒和单宁酸对黑翅土白蚁GSTs活性的抑制作用要强于黑胸散白蚁,对黑翅土白蚁GSTs活性的抑制作用分别为39.43％,72.07％,52.24％和82.19％;对黑胸散白蚁GSTs活性的抑制作用分别为14.96％,40.23％,39.96％和57.80％。阿维菌素对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用没有显著差异,对黑翅土白蚁和黑胸散白蚁GSTs活性的抑制作用分别为76.21％和76.88％。这表明两种白蚁对药剂的敏感性完全不同。实验结果还表明,在3.2×10^-8～2×10^-5 mol/L内,上述植物次生物质和杀虫剂对两种白蚁GSTs活性的抑制率存在明显的剂量-效应关系。     

苜蓿盲蝽气味结合蛋白基因Alin-OBP1的克隆及表达谱分析

有证据表明昆虫气味结合蛋白(odorant binding proteins, OBPs)与其嗅觉识别密切相关,起着运输外界脂溶性气味分子通过嗅觉感器淋巴液到达嗅觉受体的关键作用.为了更好地了解OBPs在苜蓿盲蝽Adelphocoris lineolatus (Goeze)嗅觉识别中的作用,本研究首次克隆了苜蓿盲蝽气味结合蛋白基因Alin-OBP1 (GenBank序列号GQ477022). 测序和序列分析结果表明,该基因开放阅读框长438 bp, 编码145个氨基酸,预测分子量为15.69 kDa,等电点为5.01,N-末端疏水区包含由18个氨基酸组成的信号肽.蛋白特征分析表明,该基因翻译后的蛋白质具有昆虫气味结合蛋白的典型特征,即氨基酸序列中有6个保守的半胱氨酸残基.利用RT-PCR和Real-time PCR技术对Alin OBP1在苜蓿盲蝽成虫不同组织和各个发育阶段的表达水平进行了测定,结果显示Alin-OBP1几乎全部在触角中表达.不同发育阶段Alin-OBP1表达量不同,在5龄若虫和成虫阶段表达水平最高.结果提示Alin-OBP1可能在苜蓿盲蝽感受包括性信息素在内的外界化合物的过程中发挥着重要作用.     

Structural characterization and reversal of the natural organophosphate resistance of a D-type esterase, Saccharomyces cerevisiae S-formylglutathione hydrolase

Saccharomyces cerevisiae expresses a 67.8 kDa homodimeric serine thioesterase, S-formylglutathione hydrolase (SFGH), that is 39.9% identical with human esterase D. Both enzymes possess significant carboxylesterase and S-formylglutathione thioesterase activity but are unusually resistant to organophosphate (OP) inhibitors. We determined the X-ray crystal structure of yeast (y) SFGH to 2.3 A resolution by multiwavelength anomalous dispersion and used the structure to guide site-specific mutagenesis experiments addressing substrate and inhibitor reactivity. Our results demonstrate a steric mechanism of OP resistance mediated by a single indole ring (W197) located in an enzyme "acyl pocket". The W197I substitution enhances ySFGH reactivity with paraoxon by >1000-fold ( k i (W197I) = 16 +/- 2 mM (-1) h (-1)), thereby overcoming natural OP resistance. W197I increases the rate of OP inhibition under pseudo-first-order conditions but does not accelerate OP hydrolysis. The structure of the paraoxon-inhibited W197I variant was determined by molecular replacement (2.2 A); it revealed a stabilized sulfenic acid at Cys60. Wild-type (WT) ySFGH is inhibited by thiol reactive compounds and is sensitive to oxidation; thus, the cysteine sulfenic acid may play a role in the regulation of a "D-type" esterase. The structure of the W197I variant is the first reported cysteine sulfenic acid in a serine esterase. We constructed five Cys60/W197I variants and show that introducing a positive charge near the oxyanion hole, W197I/C60R or W197I/C60K, results in a further enhancement of the rates of phosphorylation with paraoxon ( k i = 42 or 80 mM (-1) h (-1), respectively) but does not affect the dephosphorylation of the enzyme. We also characterized three histidine substitutions near the oxyanion hole, G57H, L58H, and M162H, which significantly decrease esterase activity.     

Two single mutations commonly cause qualitative change of nonspecific carboxylesterases in insects

Carboxylesterases provide key mechanisms of resistance to insecticides, particularly organophosphates (OPs), in insects. One resistance mechanism is a qualitative change in the properties of a carboxylesterase. Two mutant forms, G151D and W271L, have been observed, mostly in dipteran species, to affect substrate specificity of enzymes. But whether these two single mutations can commonly change character of insect carboxylesterases is unknown. In our study carboxylesterase genes from seven insects distributed among four orders were cloned, mutated at position 151 or 271 and expressed in Escherichia coli. The kinetics of the purified recombinant proteins was examined towards an artificial carboxylester and two OP insecticides. The G/A151D and W271L mutation significantly reduced carboxylesterase activity in 87.5% and 100% cases, respectively, and at the same time conferred OP hydrolase activities in 62.5% and 87.5% cases, respectively. Thus, the change at position 271 is more effective to influence substrate specificity than that at position 151. These results may suggest that these two mutations have the potential to cause insecticide resistance broadly in insects.