大肠杆菌三个磷酸盐特异性转运突变体的遗传和生理学测试。
Genetic and physiological tests of three phosphate-specific transport mutants of Escherichia coli.
作者信息
Zuckier G, Torriani A
出版信息
J Bacteriol. 1981 Mar;145(3):1249-56. doi: 10.1128/jb.145.3.1249-1256.1981.
Abstract
Phosphate-specific transport system mutations phoT35, pst-2, and phoS25-(Am) were mapped between bgl and glmS, at about 83 min on the Escherichia coli chromosome. All three mutations were recessive to wild-type genes on transducing bacteriophage lambda asn. The phoS25 (Am) and pst-2 mutations were also recessive to transducing phage lambda dglm; however, the phoT35 mutation was not. This suggests that phoT35 lies in a different complementation group from phoS25 (Am) or pst-2. Isogenic series of strains carrying these mutations were constructed in two genetic backgrounds, pit+ (wild type) and pit (relying entirely on the phosphate-specific transport system for phosphate uptake). The pst-2 pit double mutant was incapable of Pi utilization, but the phoT35 pit double mutant exhibited no such deficiency.
摘要
磷酸特异性转运系统突变体phoT35、pst - 2和phoS25-(Am)被定位在大肠杆菌染色体上约83分钟处的bgl和glmS之间。这三个突变相对于转导噬菌体λ asn上的野生型基因均为隐性。phoS25 (Am)和pst - 2突变相对于转导噬菌体λ dglm也为隐性;然而,phoT35突变并非如此。这表明phoT35与phoS25 (Am)或pst - 2处于不同的互补群。在pit+(野生型)和pit(完全依赖磷酸特异性转运系统摄取磷酸盐)这两种遗传背景下构建了携带这些突变的同基因系列菌株。pst - 2 pit双突变体无法利用Pi,但phoT35 pit双突变体未表现出此类缺陷。
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