María Magdalena Rodríguez, Juan A Bisset, Yanelys Ricardo, Omayda Pérez, Domingo Montada, Daisy Figueredo, Ilario Fuentes
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引用次数: 0
Abstract
Introduction: resistance to organophosphorus insecticides was diagnosed in Aedes aegypti (Linnaeus, 1762) from Santiago de Cuba in 1997 and some of them are still used up to date; hence the need of ascertaining how the insecticidal resistance has changed in recent times, particularly in 2009.
Objective: to evaluate the resistance to organophosporus insecticides in larvae from Santiago de Cuba collected in 2009, and its variation in comparison with that observed in 1997; and to determine the frequency of occurrence of resistance mechanisms on the basis of high esterase activity and its classification.
Methods: resistance to organophosphorus insecticides such as malathion, pirimiphos, methyl, phenitrotion, phention, temephos and clorpiriphos in larvae by using the WHO recommended methodology. The esterase mechanism was identified through biochemical assays and polyacrylamide gel electrophoresis.
Results: larvae from the Santiago de Cuba strain were susceptible to malathion, pirimiphos, methyl and phenitrothion; there was no variation with the results achieved in a Santiago de Cuba strain in 1997, moderate resistance to phenthion and high resistance to temephos and chlorpiriphos were observed. When comparing these results with those of 1997, it was noted that resistance to the three insecticides increased in the 1997-2009 period. In the Santiago de Cuba strain 2009, it was shown that esterase activity was very high at a rate of 0.7. The presence of an amplified type B esterase with relative mobility of 0.95 cm was detected, which did not exist in the reference strain.
Conclusions: resistance to insecticides and its mechanisms are highly variable, even in the same species subjected to various intensities in the insecticidal use, therefore, it is necessary to constantly monitor both aspects at local level in the course of time, with a view to an effective vector control program.
导读:1997年在古巴圣地亚哥发现埃及伊蚊(Linnaeus, 1762)对有机磷杀虫剂产生抗药性,部分品种至今仍在使用;因此,有必要确定近年来,特别是2009年杀虫剂抗性是如何变化的。目的:评价2009年在古巴圣地亚哥采集的幼虫对有机磷类杀虫剂的抗性情况,并与1997年比较;并根据高酯酶活性及其分类,确定耐药发生的频率机制。方法:采用世卫组织推荐的方法测定幼虫对马拉硫磷、吡虫磷、甲胺磷、苯硝、磺胺、双硫磷和氯吡虫磷等有机磷杀虫剂的抗性。通过生化分析和聚丙烯酰胺凝胶电泳鉴定了酯酶作用机理。结果:古巴圣地亚哥菌株幼虫对马拉硫磷、吡硫磷、甲基和苯硫磷敏感;结果与1997年在古巴圣地亚哥菌株中取得的结果没有变化,对硫磷有中等抗性,对双硫磷和毒死蜱有高抗性。与1997年比较发现,1997-2009年对3种杀虫剂的抗性均呈上升趋势。在2009年的Santiago de Cuba菌株中,酯酶活性非常高,速率为0.7。检测到一种扩增的B型酯酶,其相对迁移率为0.95 cm,而该酶在参考菌株中不存在。结论:即使同一种昆虫在不同的杀虫剂使用强度下,对杀虫剂的抗性及其机制也存在很大差异,因此有必要在地方一级持续监测这两方面的情况,以期制定有效的病媒控制方案。
期刊介绍:
La Revista Cubana de Medicina Tropical tiene la misión de publicar artículos científicos especializados en medicina tropical, microbiología, parasitología, epidemiología y otras especialidades afines. Se distribuye directamente por el editor a los suscriptores en formato impreso (ISSN 0375-0760). Está dirigida a profesionales y técnicos en el campo de la medicina tropical, microbiología, parasitología y epidemiología. Recibe contribuciones en idioma español, inglés y portugués sin distinción en el país de procedencia.
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