动物肉毒杆菌中毒的结果在AniBioThreat项目。

Cédric Woudstra, Annica Tevell Åberg, Hanna Skarin, Fabrizio Anniballi, Dario De Medici, Luca Bano, Miriam Koene, Charlotta Löfström, Trine Hansen, Mikael Hedeland, Patrick Fach
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引用次数: 6

摘要

人类和动物的肉毒杆菌中毒是全世界关注的问题。由肉毒梭菌和其他梭菌产生的肉毒神经毒素是已知最有效的生物物质,是导致高死亡率的弛缓性麻痹的原因。肉毒梭菌和肉毒杆菌神经毒素被认为是生物恐怖主义的潜在武器,已被列入澳大利亚集团生物制剂清单。2010年,欧盟委员会(司法、自由和安全总局)资助了一个为期三年的项目,名为“反生物威胁”,以提高欧盟应对动物生物恐怖主义威胁的能力。需要一套含有肉毒杆菌毒素和事件筛选方法的检测组合,以改进对肉毒杆菌神经毒素和其他梭状菌对饲料和食物链的意外和故意污染的跟踪和追踪。这种威胁的复杂性需要获取新的遗传信息,以更好地了解这些梭菌的多样性,并开发针对这些梭菌的高度特异性遗传标记和它们能够产生的神经毒素的检测方法。参与AniBioThreat项目的几个欧洲研究所在这个项目上进行了合作,以实现这些目标。这里讨论它们的科学发展。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Animal botulism outcomes in the AniBioThreat project.

Botulism disease in both humans and animals is a worldwide concern. Botulinum neurotoxins produced by Clostridium botulinum and other Clostridium species are the most potent biological substances known and are responsible for flaccid paralysis leading to a high mortality rate. Clostridium botulinum and botulinum neurotoxins are considered potential weapons for bioterrorism and have been included in the Australia Group List of Biological Agents. In 2010 the European Commission (DG Justice, Freedom and Security) funded a 3-year project named AniBioThreat to improve the EU's capacity to counter animal bioterrorism threats. A detection portfolio with screening methods for botulism agents and incidents was needed to improve tracking and tracing of accidental and deliberate contamination of the feed and food chain with botulinum neurotoxins and other Clostridia. The complexity of this threat required acquiring new genetic information to better understand the diversity of these Clostridia and develop detection methods targeting both highly specific genetic markers of these Clostridia and the neurotoxins they are able to produce. Several European institutes participating in the AniBioThreat project collaborated on this program to achieve these objectives. Their scientific developments are discussed here.

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