Dairy Science and Technology Laboratory, Agricultural Research Center of Mabegondo (CIAM), Xunta de Galicia, 15080 A Coruña, Spain.
J Food Sci. 2009 Aug;74(6):M284-93. doi: 10.1111/j.1750-3841.2009.01217.x.
Antibiotic susceptibility against 19 antimicrobial agents was evaluated in isolates of the genera Lactococcus (46 isolates), Leuconostoc (22), Lactobacillus (19), Staphylococcus (8), Enterococcus (7), and Microccoccus/Kocuria (5) obtained from the predominant microflora of nonrecent and recent types of artisanal raw cow's milk cheeses. Beta-lactams showed broad activity against all genera, although leuconostocs and lactobacilli were highly resistant to oxacillin (80% to 95.5%). Resistance to aminoglycosides was frequent for lactococci and enterococci (particularly for streptomycin), whereas lower rates of resistance were detected for lactobacilli and leuconostocs. Technologically interesting traits for the food industry were distributed among isolates that showed different degrees of resistance to common antibiotics. However, isolates showing resistance to less than 2 antibiotics were mainly those with properties of greatest technological interest (acidifying activity, proteolytic/lipolytic activities, or diacetyl production).
从非近期和近期传统手工鲜牛奶奶酪的主要微生物群中分离得到的乳球菌属(46 株)、肠球菌属(7 株)、明串珠菌属/片球菌属(5 株)、葡萄球菌属(8 株)、乳杆菌属(19 株)和微球菌属(5 株)中,对 19 种抗菌药物的药敏性进行了评估。β-内酰胺类抗生素对所有属均具有广泛的活性,尽管肠球菌属和乳杆菌属对苯唑西林高度耐药(80%-95.5%)。乳球菌属和肠球菌属对氨基糖苷类药物的耐药性很常见(特别是链霉素),而乳杆菌属和肠球菌属的耐药率较低。对食品工业具有技术意义的特性分布在对常见抗生素表现出不同程度耐药性的分离株中。然而,表现出对少于 2 种抗生素耐药的分离株主要是那些具有最大技术意义的特性(酸化活性、蛋白水解/脂肪水解活性或双乙酰生产)。
