金黄色葡萄球菌对镉离子的质粒依赖的不透性屏障。

Z Tynecka, J Zajac, Z Goś
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引用次数: 0

摘要

研究了金黄色葡萄球菌质粒对镉离子的抗性性质。在生长试验和压力测定实验中,携带质粒菌株的抗性均明显强于质粒阴性菌株。放射性同位素研究表明,耐药生物不吸收浓度为10-4M- 10-6M的115mCdCl2,这对其呼吸也是无害的。与此相反,质粒阴性变体对所有使用的浓度(10-3M—10-6M)都是可渗透的,并且115mCd2+离子的摄取总是导致呼吸抑制。这些发现表明,抗镉性可能是由于质粒基因控制的不渗透屏障。然而,这一屏障是可以突破的,因为在10-3M时,观察到抗性菌株对放射性镉的一些明显吸收,并伴有呼吸的部分抑制。Cd2+离子与敏感细胞的结合是不可逆的,并且依赖于温度(在37度时发生,但在2-4度时不发生)。尽管用半胱氨酸预处理过的细胞可以防止115mCdCl2的摄取,但结合的分子不能通过大量水洗或半胱氨酸处理去除。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Plasmid dependent impermeability barrier to cadmium ions in Staphylococcus aureus.

The nature of plasmid born resistance of Staphylococcus aureus to cadmium ions has been investigated. Plasmid harbouring strain was significantly more resistant than its plasmid negative variant, both in growth tests and in manometric experiments. Radioisotopic studies have revealed that the resistant organism did not take up 115mCdCl2 at concentrations 10-4M--10-6M, which were also harmless to its respiration. In contrast to this, plasmid negative variant was permeable to all concentrations used (10-3M--10-6M), and the uptake of 115mCd2+ ions always resulted in inhibition of respiration. These findings suggest that the cadmium resistance could be due to the impermeability barrier controlled by plasmid genes. This barrier, however, could be broken through, since at 10-3M some marked uptake of radioactive cadmium by resistant strain was observed, which was accompanied by partial inhibition of respiration. Binding of Cd2+ ions to the sensitive cells was irreversible and temperature dependent (took place at 37 degrees, but did not occur at 2-4 degrees). The bound molecules could not be removed either by extensive washing with water or by cysteine treatment, although cells pretreated with this amino acid were protected against the uptake of 115mCdCl2.

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