金黄色葡萄球菌中与质粒决定的镉抗性相关的阳离子转运改变。
Cation transport alteration associated with plasmid-determined resistance to cadmium in Staphylococcus aureus.
作者信息
Weiss A A, Silver S, Kinscherf T G
出版信息
Antimicrob Agents Chemother. 1978 Dec;14(6):856-65. doi: 10.1128/AAC.14.6.856.
Abstract
Plasmid-determined resistance to cadmium has only been found with plasmids from Staphylococcus aureus. Resistance to cadmium was associated with a lower accumulation of Cd(2+) ions by the plasmid-bearing resistant cells. Cadmium accumulation by susceptible cells was energy dependent and had those characteristics usually associated with a transmembrane active transport system. There was a specific interrelationship between cadmium accumulation and manganese accumulation and retention. Cd(2+) inhibited the uptake of Mn(2+) and accelerated the loss of intracellular Mn(2+) by the susceptible cells, but was without effect on Mn(2+) transport in resistant S. aureus cells. Under similar conditions, there was no differential effect of Cd(2+) on Mg(2+), Zn(2+), Co(2+), Ni(2+), or Rb(+) accumulation or exchange between the susceptible and the resistant strains.
摘要
仅在来自金黄色葡萄球菌的质粒中发现了质粒介导的对镉的抗性。对镉的抗性与携带质粒的抗性细胞对Cd(2+)离子的较低积累有关。敏感细胞对镉的积累是能量依赖性的,并且具有通常与跨膜主动转运系统相关的那些特征。镉积累与锰积累和保留之间存在特定的相互关系。Cd(2+)抑制敏感细胞对Mn(2+)的摄取并加速细胞内Mn(2+)的损失,但对抗性金黄色葡萄球菌细胞中的Mn(2+)转运没有影响。在相似条件下,Cd(2+)对敏感菌株和抗性菌株之间的Mg(2+)、Zn(2+)、Co(2+)、Ni(2+)或Rb(+)积累或交换没有差异影响。
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