从挤奶环境、乳品厂、牛奶和乳制品中分离出的嗜冷菌的基因检测与酶活性

Gene Detection and Enzymatic Activity of Psychrotrophic Isolated from Milking Environments, Dairies, Milk, and Dairy Products.

作者信息

Aguilar Carlos E G, Rossi Gabriel Augusto Marques, Silva Higor O, Oliveira Luisa Maria F S, Vasconcellos Alenia Naliato, Fonseca Danielle de Cássia Martins, Vaz Andréia Cristina Nakashima, de Souza Bruna Maria Salotti, Vidal Ana Maria Centola

机构信息

Secretariat of Agriculture and Supply of the State of São Paulo, São Paulo 04014-900, SP, Brazil.

Department of Veterinary Medicine, University of Vila Velha (UVV), Vila Velha 29102-920, ES, Brazil.

出版信息

Microorganisms. 2025 Apr 12;13(4):889. doi: 10.3390/microorganisms13040889.

DOI:10.3390/microorganisms13040889

PMID:40284725

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12029593/

Abstract

is a spore-forming, Gram-positive bacterium that causes foodborne illness and dairy spoilage. This study analyzed isolates from milking environments, raw milk, and dairy products to assess their genotypic and phenotypic traits. From 466 samples, 61 isolates were obtained: 27 from milking environments, 9 from dairy environments, 8 from raw milk, and 17 from dairy products. Genomic sequencing identified genes encoding proteolytic (BC5350, BC0666, BC2984, BC0598, BC5351, BC3383, BC2735), lipolytic (BC4862, BC2141, BC1027, BC4123, BC4345, BC5402, BC5401), and esterase (BC1954, BC4515, BC3413, BC3606) enzymes. Plate assays confirmed enzymatic activities. Proteolytic genes were more prevalent in environmental samples, followed by raw milk and dairy products. Lipolytic genes were most frequent in raw milk, followed by environmental samples and dairy products. Esterase genes were most common in dairy environments. These findings suggest that dairy processing influences the enzymatic profile of , potentially impacting food safety and quality in the dairy industry. Understanding the distribution of these genes may help develop strategies to mitigate spoilage and contamination risks in dairy products.

摘要

是一种形成芽孢的革兰氏阳性细菌，可导致食源性疾病和乳制品变质。本研究分析了来自挤奶环境、生乳和乳制品的分离株，以评估它们的基因型和表型特征。从466个样本中获得了61株分离株：27株来自挤奶环境，9株来自乳制品环境，8株来自生乳，17株来自乳制品。基因组测序鉴定出编码蛋白水解酶（BC5350、BC0666、BC2984、BC0598、BC5351、BC3383、BC2735）、脂肪分解酶（BC4862、BC2141、BC1027、BC4123、BC4345、BC5402、BC5401）和酯酶（BC1954、BC4515、BC3413、BC3606）的基因。平板试验证实了酶活性。蛋白水解基因在环境样本中更为普遍，其次是生乳和乳制品。脂肪分解基因在生乳中最为常见，其次是环境样本和乳制品。酯酶基因在乳制品环境中最为常见。这些发现表明，乳制品加工会影响该菌的酶谱，可能会影响乳制品行业的食品安全和质量。了解这些基因的分布可能有助于制定策略，以降低乳制品变质和污染风险。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/e4e1/12029593/a8fc4a9e6ac5/microorganisms-13-00889-g001.jpg

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从挤奶环境、乳品厂、牛奶和乳制品中分离出的嗜冷菌的基因检测与酶活性

Gene Detection and Enzymatic Activity of Psychrotrophic Isolated from Milking Environments, Dairies, Milk, and Dairy Products.

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