Wade H E, Robinson H K
Biochem J. 1966 Nov;101(2):467-79. doi: 10.1042/bj1010467.
The distribution of ribonucleases among bacteria has been determined from the examination of a wide variety of species. Bacteria that had been growing rapidly on a solid medium were harvested, treated with acetone and incubated in the presence of EDTA between pH4 and pH9. The ribonuclease activity was determined from the rate at which acid-soluble nucleotides were released. Out of nearly 200 strains examined, about 30 did not contain a detectable ribonuclease. The pH optima of ribonucleases in the remainder were sufficiently distinctive to suggest a use in taxonomy. Escherichia coli B was examined in more detail to determine the factors responsible for variations in the ribonuclease content of this bacterium. Growth rate had little influence on ribonuclease content when a complex medium containing no readily assimilable carbohydrate was used; the addition of glucose resulted in a marked increase in ribonuclease and a dependence of enzyme content on growth rate. An increase in the concentration of sodium chloride in the medium decreased the ribonuclease content of bacteria growing on it.
通过对多种细菌的检测,已确定了核糖核酸酶在细菌中的分布情况。收集在固体培养基上快速生长的细菌,用丙酮处理后,在pH4至pH9且存在乙二胺四乙酸(EDTA)的条件下进行培养。根据酸溶性核苷酸的释放速率来测定核糖核酸酶的活性。在检测的近200个菌株中,约30个未检测到核糖核酸酶。其余菌株中核糖核酸酶的最适pH值差异明显,这表明其可用于细菌分类学。对大肠杆菌B进行了更详细的研究,以确定该细菌核糖核酸酶含量变化的影响因素。当使用不含易同化碳水化合物的复杂培养基时,生长速率对核糖核酸酶含量影响不大;添加葡萄糖会导致核糖核酸酶显著增加,且酶含量依赖于生长速率。培养基中氯化钠浓度的增加会降低在其上生长的细菌的核糖核酸酶含量。