蛋白质毒素的质谱检测。

Annica Tevell Åberg, Kristian Björnstad, Mikael Hedeland
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引用次数: 22

摘要

本文综述了蛋白质毒素的质谱检测,这是已知的毒性最大的物质之一。特别强调细菌毒素肉毒杆菌的肉毒杆菌神经毒素和炭疽杆菌的炭疽毒素以及蓖麻产生的植物毒素蓖麻毒素。除了剧毒外,它们的一个共同特征是由两条多肽链组成,其中一条负责细胞摄取,另一条具有破坏基本细胞功能的酶功能。这些毒素在自然传播和恐怖主义方面都构成威胁。为了使公共卫生和应急官员在爆发时采取适当行动,无论是自然的还是故意的,都需要快速可靠的检测方法。传统上,像蛋白质这样的大分子是用免疫学技术检测的。这些方法虽然敏感,但也存在一些缺点,如交叉反应和检测失活毒素可能产生假阳性。本文介绍了最近发展的基于质谱的可靠检测肉毒杆菌神经毒素、炭疽毒素和蓖麻毒素的仪器方法。蛋白质毒素的明确鉴定可以通过质谱为基础的氨基酸测序进行。此外,结合抗体亲和预浓缩和生物化学测试与质谱检测证明毒素的酶活性,非常强大的分析方法已经被描述。总之,灵敏、易于操作的质谱仪的出现为检测蛋白质毒素提供了新的可能性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Mass spectrometric detection of protein-based toxins.

This review focuses on mass spectrometric detection of protein-based toxins, which are among the most toxic substances known. Special emphasis is given to the bacterial toxins botulinum neurotoxin from Clostridium botulinum and anthrax toxins from Bacillus anthracis as well as the plant toxin ricin produced by Ricinus communis. A common feature, apart from their extreme toxicity, is that they are composed of 2 polypeptide chains, one of which is responsible for cell uptake and another that has enzymatic function with the ability to destroy basic cellular functions. These toxins pose a threat, both regarding natural spread and from a terrorism perspective. In order for public health and emergency response officials to take appropriate action in case of an outbreak, whether natural or intentional, there is a need for fast and reliable detection methods. Traditionally, large molecules like proteins have been detected using immunological techniques. Although sensitive, these methods suffer from some drawbacks, such as the risk of false-positives due to cross-reactions and detection of inactive toxin. This article describes recently developed instrumental methods based on mass spectrometry for the reliable detection of botulinum neurotoxins, anthrax toxins, and ricin. Unequivocal identification of a protein toxin can be carried out by mass spectrometry-based amino acid sequencing. Furthermore, in combination with antibody affinity preconcentration and biochemical tests with mass spectrometric detection demonstrating the toxin's enzymatic activity, very powerful analytical methods have been described. In conclusion, the advent of sensitive, easily operated mass spectrometers provides new possibilities for the detection of protein-based toxins.

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