粗糙脉孢菌耐钴菌株中金属毒性下微量元素代谢的相互关系
Interrelationships in trace-element metabolism in metal toxicities in a cobalt-resistant strain of Neurospora crassa.
作者信息
Venkateswerlu G, Sastry K S
出版信息
Biochem J. 1973 Apr;132(4):673-80. doi: 10.1042/bj1320673.
Abstract
A strain of Neurospora crassa was isolated by training the mould to grow on media containing high concentrations of Co(2+). This strain, the Co(R) strain, exhibited approximately tenfold the resistance of the parent strain to Co(2+) and Ni(2+) but not to Zn(2+) or Cu(2+). Co(2+) toxicity in the Co(R) strain was reversed by Mg(2+) but not by Fe(3+). Also, Co(2+) did not affect iron metabolism in this strain. It is suggested that the mechanism of resistance in the Co(R) strain involves an alteration in the pattern of iron metabolism such that the latter is no longer adversely affected by toxic concentrations of Co(2+). The Co(R) strain is genetically stable and is most probably a result of a resistance mutation in N. crassa induced by Co(2+).
摘要
通过训练霉菌在含有高浓度Co(2+)的培养基上生长,分离出了一种粗糙脉孢菌菌株。该菌株,即Co(R)菌株,对Co(2+)和Ni(2+)的抗性约为亲本菌株的十倍,但对Zn(2+)或Cu(2+)没有抗性。Co(R)菌株中Co(2+)的毒性可被Mg(2+)逆转,但不能被Fe(3+)逆转。此外,Co(2+)对该菌株的铁代谢没有影响。有人认为,Co(R)菌株的抗性机制涉及铁代谢模式的改变,使得铁代谢不再受到Co(2+)毒性浓度的不利影响。Co(R)菌株在遗传上是稳定的,很可能是Co(2+)诱导的粗糙脉孢菌抗性突变的结果。
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