College of Life Sciences, Nanjing Agricultural University, Nanjing 210095, China.
J Agric Food Chem. 2024 Aug 28;72(34):18840-18850. doi: 10.1021/acs.jafc.4c04637. Epub 2024 Aug 14.
Cyromazine, a triazine insecticide, raises food safety concerns due to residues in vegetables like cowpeas. Microbial metabolism is key for pesticide elimination, but bacteria efficient in cyromazine degradation are limited, with uncharacterized enzymes. This study isolated a highly efficient cyromazine-degrading bacterium, sp. M15, from a cowpea field. M15 utilized cyromazine as the sole carbon source for its growth and completely degraded 0.5 mM cyromazine within 24 h. The degradation pathway involved hydrolyzing cyromazine to -cyclopropylammeline and further to -cyclopropylammelide, with amino groups removed sequentially. The cyclopropylamine group in N-cyclopropionamide continued to hydrolyze to cyanuric acid. A protein, CriA, identified as an aminohydrolase in M15, degraded cyromazine to -cyclopropylammeline. Using CriA reduced cyromazine residues on cowpea surfaces and completely degraded them in immersion solutions. These findings offer insights into cyromazine's microbial degradation mechanism and highlight the potential of cyromazine-degrading enzymes in enhancing food safety.
环丙虫酰胺,一种三嗪类杀虫剂,由于在豇豆等蔬菜中有残留而引起食品安全问题。微生物代谢是农药消除的关键,但能有效降解环丙虫酰胺的细菌有限,且其相关酶的特性尚未明确。本研究从豇豆田中分离到一株高效降解环丙虫酰胺的细菌 sp. M15。M15 能以环丙虫酰胺作为唯一碳源生长,并能在 24 小时内完全降解 0.5 mM 的环丙虫酰胺。其降解途径涉及将环丙虫酰胺水解为 -环丙基氨啉,然后进一步水解为 -环丙基氨内酰胺,同时依次去除氨基。N-环丙基乙酰胺中的环丙基胺基团继续水解生成三聚氰胺酸。在 M15 中鉴定出一种名为 CriA 的蛋白,它能将环丙虫酰胺降解为 -环丙基氨啉。使用 CriA 能减少豇豆表面的环丙虫酰胺残留,并能在浸提液中将其完全降解。这些发现为环丙虫酰胺的微生物降解机制提供了新的见解,并强调了环丙虫酰胺降解酶在提高食品安全方面的潜力。
