Universidade Federal de Santa Catarina (UFSC), Departamento de Ciência e Tecnologia de Alimentos, Florianópolis, SC 88034-001, Brazil.
Universidade Federal de Santa Catarina (UFSC), Departamento de Ciência e Tecnologia de Alimentos, Florianópolis, SC 88034-001, Brazil; Ministério da Agricultura, Pecuária e Abastecimento, Laboratório Federal de Defesa Agropecuária (SLAV/SC/LANAGRO/RS), São José, SC 88102-600, Brazil; Instituto Catarinense de Sanidade Agropecuária (ICASA), Florianópolis, SC 88034-001, Brazil.
Food Res Int. 2020 Oct;136:109441. doi: 10.1016/j.foodres.2020.109441. Epub 2020 Jun 21.
Processed meats are classified by the International Agency for Research on Cancer as category 1 because their consumption increase the incidence of colorectal and stomach cancers. Meat processing widely employs nitrite and sorbate as preservatives. When these preservatives are concomitantly used in non-compliant processes, they may react and produce the mutagen 2-methyl-1,4-dinitro-pyrrole (DNMP). This study aimed to evaluate the ability of different bacteria isolated from food matrices to biodegrade DNMP in in vitro reactions and in a processed meat model. A possible mechanism of biodegradation was also tested. In vitro experiments were performed in two steps. In the first one, only one strain out of 13 different species did not interact with DNMP. In the following step, an empirical conversion factor was calculated to assess the conversion of DNMP to 4-amino-2-methyl-1-nitro-pyrrole by the strains. The most efficient strains were Staphylococcus xylosus LYOCARNI SXH-01, Lactobacillus fermentum LB-UFSC 0017, and Lactobacillus casei LB-UFSC 0019, which yielded conversion factors of 0.62, 0.60, and 0.43, respectively. Thus, such strains were individually added to the processed meat model and completely degraded the DNMP. Moreover, S. xylosus degraded DNMP in less than 30 min. The enzymatic mechanism was evaluated using its cell-free extract. It showed that, in the aerobic system, reduction rates were 30.321 and 22.411 nmol/mg of protein/min using NADH and NADPH, respectively. A DNMP reductase was assigned to the extract and a potential presence of an oxygen insensitive nitroreductase type I B was considered. Thus, biotechnological processes may be an efficient strategy to eliminate the DNMP from meat products and to increase food safety.
加工肉类被国际癌症研究机构归类为 1 类,因为它们的摄入会增加结直肠癌和胃癌的发病率。肉类加工广泛使用亚硝酸盐和山梨酸钾作为防腐剂。当这些防腐剂在不合规的工艺中同时使用时,它们可能会发生反应并产生致突变剂 2-甲基-1,4-二硝基吡咯(DNMP)。本研究旨在评估从食品基质中分离出的不同细菌在体外反应和加工肉类模型中降解 DNMP 的能力。还测试了一种可能的降解机制。体外实验分两步进行。在第一步中,13 种不同物种中只有一种菌株与 DNMP 没有相互作用。在接下来的步骤中,计算了一个经验转换因子,以评估菌株将 DNMP 转化为 4-氨基-2-甲基-1-硝基吡咯的转化率。最有效的菌株是 Staphylococcus xylosus LYOCARNI SXH-01、Lactobacillus fermentum LB-UFSC 0017 和 Lactobacillus casei LB-UFSC 0019,它们的转化率分别为 0.62、0.60 和 0.43。因此,这些菌株被单独添加到加工肉类模型中,并完全降解了 DNMP。此外,S. xylosus 在不到 30 分钟内降解了 DNMP。使用其无细胞提取物评估了酶促机制。结果表明,在有氧体系中,分别使用 NADH 和 NADPH,还原率为 30.321 和 22.411 nmol/mg 蛋白/min。该提取物中分配到了 DNMP 还原酶,并且考虑到存在一种对氧气不敏感的硝基还原酶 I B 型。因此,生物技术过程可能是从肉类产品中消除 DNMP 并提高食品安全的有效策略。
