噬菌体介导的88型金黄色葡萄球菌抗生素耐药性获得
Bacteriophage-mediated acquisition of antibiotic resistance by Staphylococcus aureus type 88.
作者信息
Schaefler S
出版信息
Antimicrob Agents Chemother. 1982 Mar;21(3):460-7. doi: 10.1128/AAC.21.3.460.
Abstract
Antibiotic-resistant Staphylococcus aureus strains of phage type 88, lysogenic for phage 188, when grown in mixed culture with a nonlysogenic novobiocin-resistant strain, acquired novobiocin resistance at a high rate from the nonlysogenic strain. With most strains of phage type 88, there was no detectable transfer of resistance from lysogenic to nonlysogenic cells. Lysogenization with phage 188 of phage-sensitive strains conferred on the lysogenized cells the ability to acquire chromosome and plasmid resistance markers. The acquisition of novobiocin resistance in liquid cultures depended on the aeration of the culture, cell density, and the presence of Ca2+. Pronase, and to a lesser degree other proteinases, increased the rate of acquisition of chromosome- and plasmid-determined resistance markers by cells lysogenic for phage 188.
摘要
噬菌体88型的耐抗生素金黄色葡萄球菌菌株,对噬菌体188呈溶原性,当与非溶原性的新生霉素抗性菌株进行混合培养时,能以较高频率从非溶原性菌株获得新生霉素抗性。对于大多数噬菌体88型菌株,未检测到抗性从溶原性细胞转移至非溶原性细胞。用噬菌体188对噬菌体敏感菌株进行溶原化处理,可使溶原化细胞获得获得染色体和质粒抗性标记的能力。液体培养物中新生霉素抗性的获得取决于培养物的通气情况、细胞密度以及Ca2+的存在。链霉蛋白酶以及程度稍轻的其他蛋白酶,可提高对噬菌体188呈溶原性的细胞获得染色体和质粒决定的抗性标记的速率。
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