一种有条件改变呼吸链成分的大肠杆菌突变体。

J C Cox, P Jurtshuk
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引用次数: 1

摘要

采用亚硝基胍诱变法分离了一株呼吸链组分条件改变的大肠杆菌突变体。突变体R25能在葡萄糖、果糖和甘油上生长,但不能在琥珀酸盐和乙酸盐上生长。此外,R25对dl -乳酸、富马酸和苹果酸也表现出泄漏生长(lct*)。lct*突变多效性影响许多呼吸链组分,其表达与生长底物有关。葡萄糖培养的R25静息细胞悬液氧化dl -乳酸和甲酸;然而,这两种底物不会被果糖或甘油培养的细胞悬浮液氧化。细胞色素成分的浓度、NADH和甲酸的膜相关氧化以及甲酸非那嗪甲硫代硫酸盐(PMS)还原酶的活性也出现了相同的条件模式;由于这种突变,在任何生长条件下,膜都没有表现出琥珀酸氧化酶和PMS还原酶的活性。R25膜相关H(+)-易位atp酶活性与生长底物无关。R25PC是R25的自发lct+部分逆转录体,不具有R25的条件模式。发现lct*突变位于大肠杆菌基因组的27-30分钟区域,而lct -突变位于15-17分钟区域。分离出两种不同类型的R25 P1kc转导剂,它们在琥珀酸盐和dl -乳酸盐上的生长反应和氧化酶活性都不同。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An Escherichia coli mutant conditionally altered in respiratory chain components.

Nitrosoguanidine mutagenesis was employed to isolate an Escherichia coli mutant conditionally altered in respiratory chain components. Mutant R25 was able to grow on glucose, fructose, and glycerol but failed to grow on succinate and acetate (suc-). Also, R25 exhibited leaky growth on DL-lactate, fumarate, and malate (lct*). The lct* mutation pleiotropically affected a number of respiratory chain components and its expression was conditional with the growth substrate. Glucose-grown R25 resting cell suspensions oxidized DL-lactate and formate; however, these two substrates were not oxidized by fructose- or glycerol-grown cell suspensions. The same conditional pattern was observed for the concentration of cytochrome components, the membrane-associated oxidation of NADH and formate, and formate phenazine methosulfate (PMS) reductase activity; succinate oxidase and PMS reductase activities were not exhibited by membranes under any growth condition due to the suc- mutation. R25 membrane-associated H(+)-translocating ATPase activity was not conditional with the growth substrate. R25PC, a spontaneous lct+ suc- partial revertant of R25, did not exhibit the conditional pattern of R25. The lct* mutation was found to map in the 27-30-min region and the suc- mutation in the 15-17-min region of the E. coli genome. Two distinct classes of R25 P1kc transductants were isolated that differed in both their growth response on succinate and DL-lactate and their oxidase activities.

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