Raúl Sancho-García, Fernando Navarro-Villoslada, Fernando Pradanas-González, Henri O. Arola, Bettina Glahn-Martínez, Tarja K. Nevanen, Elena Benito-Peña
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Our approach integrates advanced nanobiotechnology to develop fluorescent antibodies by conjugating a recombinant superfolder green fluorescent protein (sfGFP) with a single-chain antibody (scFv). This fusion allows for precise detection of the immune complex formed between the HT-2 toxin and a biotinylated anti-HT-2 antibody. Additionally, we employed advanced computational tools, including AlphaFold and MOE, to deepen our understanding of the binding interactions present in the immune complex, confirming the strong interaction between the Fab/HT-2 toxin immunocomplex and the scFv antibody fragment, in contrast to the weaker binding observed with the Fab/T-2 toxin and the scFv. The method demonstrates high sensitivity, with an EC<sub>50</sub> of 10.3 ± 0.6 ng mL<sup>−1</sup>, a dynamic range of 3.4 ± 0.1 to 31 ± 3 ng mL<sup>−1</sup>, a limit of detection of 0.43 ng mL<sup>−1</sup>, and a limit of quantification of 1.2 ng mL<sup>−1</sup> in buffer solution. 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引用次数: 0
摘要
食用昆虫在非洲、亚洲、大洋洲和拉丁美洲的非西方国家很常见。然而,近年来,由于其显著的营养特性,它们的消费量在欧洲显著增加。食用昆虫提供了优质蛋白质、脂肪、矿物质和维生素的宝贵来源。然而,由于可能存在病原体和污染物,例如真菌毒素(真菌产生的有毒化合物,对食品和饲料安全构成重大威胁),全球监管指南的缺乏构成了与食用相关的风险。我们的方法整合了先进的纳米生物技术,通过将重组超级文件夹绿色荧光蛋白(sfGFP)与单链抗体(scFv)偶联来开发荧光抗体。这种融合可以精确检测在HT-2毒素和生物素化的抗HT-2抗体之间形成的免疫复合物。此外,我们使用了先进的计算工具,包括AlphaFold和MOE,来加深我们对免疫复合物中存在的结合相互作用的理解,证实了Fab/HT-2毒素免疫复合物与scFv抗体片段之间的强相互作用,而Fab/T-2毒素与scFv之间的结合较弱。该方法灵敏度高,EC50值为10.3±0.6 ng mL - 1,动态范围为3.4±0.1 ~ 31±3 ng mL - 1,检测限为0.43 ng mL - 1,缓冲溶液定量限为1.2 ng mL - 1。该方法具有很高的准确度,重复性为4%,与其他真菌毒素无交叉反应性。应用于受污染的蟋蟀粉,回收率为91 ~ 133%,变异系数为6 ~ 13%。结果表明,所建立的免疫分析法检测食品基质中HT-2毒素具有较高的灵敏度、选择性和可靠性,为食品安全领域真菌毒素筛选提供了一种有前景的工具。图形抽象
Biotechnology-enhanced immunoassay for accurate determination of HT-2 toxin in edible insect samples
Consumption of edible insects is common in non-Western countries of Africa, Asia, Oceania, and Latin America. However, their consumption has significantly increased in Europe in recent years thanks to their remarkable nutritional properties. Edible insects provide a valuable source of high-quality proteins, fats, minerals, and vitamins. Nevertheless, the absence of global regulatory guidelines poses a risk associated with their consumption due to the potential presence of pathogens and contaminants, such as mycotoxins, which are toxic compounds produced by fungi and represent a major threat to food and feed safety. Our approach integrates advanced nanobiotechnology to develop fluorescent antibodies by conjugating a recombinant superfolder green fluorescent protein (sfGFP) with a single-chain antibody (scFv). This fusion allows for precise detection of the immune complex formed between the HT-2 toxin and a biotinylated anti-HT-2 antibody. Additionally, we employed advanced computational tools, including AlphaFold and MOE, to deepen our understanding of the binding interactions present in the immune complex, confirming the strong interaction between the Fab/HT-2 toxin immunocomplex and the scFv antibody fragment, in contrast to the weaker binding observed with the Fab/T-2 toxin and the scFv. The method demonstrates high sensitivity, with an EC50 of 10.3 ± 0.6 ng mL−1, a dynamic range of 3.4 ± 0.1 to 31 ± 3 ng mL−1, a limit of detection of 0.43 ng mL−1, and a limit of quantification of 1.2 ng mL−1 in buffer solution. The assay exhibited excellent precision, with a reproducibility of 4% and no cross-reactivity with other mycotoxins. Application to contaminated cricket flour yielded recoveries between 91 and 133%, with coefficients of variation from 6 to 13%. These results indicate that the developed immunoassay is highly sensitive, selective, and reliable for detecting HT-2 toxin in food matrices, providing a promising tool for mycotoxin screening in food safety.
期刊介绍:
As a peer-reviewed journal for analytical sciences and technologies on the micro- and nanoscale, Microchimica Acta has established itself as a premier forum for truly novel approaches in chemical and biochemical analysis. Coverage includes methods and devices that provide expedient solutions to the most contemporary demands in this area. Examples are point-of-care technologies, wearable (bio)sensors, in-vivo-monitoring, micro/nanomotors and materials based on synthetic biology as well as biomedical imaging and targeting.
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