肽对东印度农业中使用的危险杀伤化学品的救援任务:基于2020年实地调查的计算机方法

IF 1.3 Q4 ENVIRONMENTAL SCIENCES Environmental Health Engineering and Management Journal Pub Date : 2021-02-10 DOI:10.34172/EHEM.2021.14
Debojyoti Chowdhury, Abhisekh Chhatar, S. Nandan, S. Swarupa, Ranjit Shaw, Seena Basu, N. Atre, D. Khedkar
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引用次数: 0

摘要

背景:有毒农用化学品的使用对农民来说既是必要的,也是危险的。化学品的长期危害甚至可能危及许多人的生命。最近,这类化学品对环境和人类健康的不利影响在全世界受到严重关注。在印度,化学喷雾剂的使用使许多人丧生,并在最大程度上影响了重要器官。这种严重的情况促使人们寻找防止吸入和吸收这些化学物质的方法。本研究旨在评估不同类型的化学喷雾剂及其影响,并探讨消除其毒性作用的补救方法。方法:根据调查对象反映的作用严重程度反馈,并对不同理化参数进行统计分析,选择高效氯氰菊酯、磷酸酯、灭虫威、丁丙嗪和代谢物进行结合。对39种杀菌剂进行化学相似性分析,预测其与上述5种种子分子的结合相似性。这五种化学物质与三种不同的蛋白质对接,121p GTPase HRas,鱼雷乙酰胆碱酯酶和锥虫磷酸甘油酸激酶,根据共同目标预测选择。结果:共同靶标预测表明,这些化学物质与这些蛋白质具有亲和力,与芳香氨基酸残基和具有h键能力的氨基酸残基具有较高的结合相互作用,并伴随着对乙酰胆碱酯酶的偏好。结论:本实验结果为乙酰胆碱酯酶作为一种潜在的农药捕获结合剂提供了依据。
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Peptides on a rescue mission against the hazardous cidal chemicals used in Eastern Indian Agriculture: An in-silico approach based on field survey in 2020
Background: The use of poisonous agrochemicals is both necessary and menacing for a farmer. The long-term hazards of chemicals can even be life-threatening to many people. Recently, the adverse effects of such chemicals on the environment and human health received serious attention throughout the world. In an Indian context, the usage of the chemical sprays has costed many lives and influenced vital organs to the greatest extent. This serious situation advocates the search for ways to prevent the inhalation and absorption of these chemicals into the body. The present study was conducted to evaluate different types of chemical sprays, their impact, and explore remedial ways to neutralize their toxic effects. Methods: Alpha-cypermethrin, phorate, fenobucarb, buprofezin, and mancozeb were selected for binding based on the feedback of severity in actions reported by the respondents and statistical analysis of different physical and chemical parameters. Chemical similarity analysis of the 39 cidal chemicals was performed to predict the binding similarity with respect to the above-mentioned 5 seed molecules. These five chemicals were docked with three different proteins 121p GTPase HRas, Torpedo acetylcholinesterase, and trypanosoma phosphoglycerate kinase, selected based on the common target prediction. Results: Common target prediction revealed that these chemicals have an affinity to bind these proteins with a higher binding interaction towards the aromatic amino acid residues and those capable of H-bonding, escorted by a predilection towards acetylcholinesterase. Conclusion: The in-silico findings are the basis to propose that acetylcholinesterase can be considered as a potential binding agent to trap fatal agrochemicals.
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来源期刊
CiteScore
2.40
自引率
37.50%
发文量
17
审稿时长
12 weeks
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