Laboratório de Prospecção de Cepas e Genes, Instituto Mato-Grossense do Algodão (IMAmt), Rondonópolis 78740-970, Mato Grosso, Brazil.
Laboratório de Biologia Molecular e Transformação de Plantas, Instituto Mato-Grossense do Algodão (IMAmt), Rondonópolis 78740-970, Mato Grosso, Brazil.
Toxins (Basel). 2023 Jan 8;15(1):55. doi: 10.3390/toxins15010055.
The beetle Boheman, 1843, is the main cotton pest, causing enormous losses in cotton. The breeding of genetically modified plants with resistance is seen as an important control strategy. However, the identification of molecules with high toxicity to this insect remains a challenge. The susceptibility of larvae to proteins (Cry1Ba, Cry7Ab, and Mpp23Aa/Xpp37Aa) from Berliner, 1915, with toxicity reported against Coleopteran, has been evaluated. The ingestion of different protein concentrations (which were incorporated into an artificial diet) by the larvae was tested in the laboratory, and mortality was evaluated after one week. All Cry proteins tested exhibited higher toxicity than that the untreated artificial diet. These Cry proteins showed similar results to the control Cry1Ac, with low toxicity to since it killed less than 50% of larvae, even at the highest concentration applied (100 μg·g). Mpp/Xpp proteins provided the highest toxicity with a 0.18 μg·g value for the 50% lethal concentration. Importantly, this parameter is the lowest ever reported for this insect species tested with proteins. This result highlights the potential of Mpp23Aa/Xpp37Aa for the development of a biotechnological tool aiming at the field control of .
1843 年的甲虫 Boheman 是棉花的主要害虫,对棉花造成了巨大的损失。培育具有抗性的转基因植物被认为是一种重要的控制策略。然而,识别对这种昆虫具有高毒性的分子仍然是一个挑战。幼虫对 Berliner,1915 年的蛋白质(Cry1Ba、Cry7Ab 和 Mpp23Aa/Xpp37Aa)的敏感性进行了评估,这些蛋白质已被报道对鞘翅目昆虫具有毒性。在实验室中测试了幼虫摄入不同蛋白浓度(这些蛋白被掺入人工饲料中)的情况,并在一周后评估死亡率。所有测试的 Cry 蛋白都表现出比未处理的人工饲料更高的毒性。这些 Cry 蛋白与对照 Cry1Ac 表现出相似的结果,对 的毒性较低,因为即使在最高浓度(100 μg·g)下,也不到 50%的幼虫死亡。Mpp/Xpp 蛋白的毒性最高,半致死浓度为 0.18 μg·g。重要的是,这一参数是迄今为止用 蛋白测试的这种昆虫物种中报告的最低值。这一结果突出了 Mpp23Aa/Xpp37Aa 用于开发生物技术工具的潜力,旨在田间控制 。