用于蚊虫控制计划的杀蚊幼虫二元(BinA/B)蛋白——进展、挑战和可能性

IF 2.2 Q1 ENTOMOLOGY
Mahima Sharma , Vinay Kumar
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引用次数: 2

摘要

蚊子传播疾病的全球负担日益增加,需要有针对性、环境友好和可持续的方法来有效控制病媒,同时又不危及非目标有益昆虫种群。生物干预措施,如生物农药,沃尔巴克氏体介导的生物防治,或昆虫不育技术在世界范围内使用。本文综述了Binary或BinAB毒素——世界卫生组织认可的球形赖氨酸芽孢杆菌中用于蚊虫控制项目的杀蚊幼虫成分。二元(BinAB)毒素是细菌杀灭幼虫作用的主要原因。BinAB是一种单受体特异性毒素,对库蚊和按蚊幼虫有效,但对埃及伊蚊无效。库蚊的受体Cqm1蛋白已被广泛研究。它是一种gpi锚定的淀粉酶,位于幼虫中肠上皮的脂筏顶端。毒素成分与受体的相互作用对BinAB毒素的灭蚊活性至关重要。在这里,我们进一步支持BinAB毒素内化的孔形成模型,以及内质网中毒素-聚糖相互作用在介导幼虫死亡中的作用。在系统发育上,BinAB对人类是安全的,因为cqm1样蛋白不存在于人类蛋白质组中。本文综述了利用融合技术(BinA嵌合体、BinA化学修饰)对蚊虫进行有效控制的研究进展。此外,本文还探讨了球形乳杆菌在生物修复和癌症治疗等其他领域的应用和进一步开发潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Mosquito-larvicidal Binary (BinA/B) proteins for mosquito control programs —advancements, challenges, and possibilities

Mosquito-larvicidal Binary (BinA/B) proteins for mosquito control programs —advancements, challenges, and possibilities

The increasing global burden of mosquito-borne diseases require targeted, environmentally friendly, and sustainable approaches for effective vector control without endangering the non-target beneficial insect population. Biological interventions such as biopesticides, Wolbachia-mediated biological controls, or sterile insect techniques are used worldwide. Here we review Binary or BinAB toxin—the mosquito-larvicidal component of WHO-recognized Lysinibacillus sphaericus bacterium employed in mosquito control programs. Binary (BinAB) toxin is primarily responsible for the larvicidal effect of the bacterium. BinAB is a single-receptor-specific toxin and is effective against larvae of Culex and Anopheles, but not against Aedes aegypti. The receptor in Culex, the Cqm1 protein, has been extensively studied. It is a GPI-anchored amylomaltase and is located apically in the lipid rafts of the larval-midgut epithelium. The interaction of the toxin components with the receptor is crucial for the mosquito larvicidal activity of the BinAB toxin. Here we extend support for the pore formation model of BinAB toxin internalization and the role of toxin-glycan interactions in the endoplasmic reticulum in mediating larval death. BinAB is phylogenetically safe for humans, as Cqm1-like protein is not expected in the human proteome. This review aims to initiate targeted R&D efforts, such as applying fusion technologies (chimera of BinA, chemical modification of BinA), for efficient mosquito control interventions. In addition, the review also examines other areas such as bioremediation and cancer therapeutics, in which L. sphaericus is proving useful and showing potential for further development.

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来源期刊
Current Research in Insect Science
Current Research in Insect Science Agricultural and Biological Sciences-Animal Science and Zoology
CiteScore
3.20
自引率
0.00%
发文量
22
审稿时长
36 days
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