电子传递和偶联磷酸化缺陷的大肠杆菌K12突变体中的代谢物运输。
Metabolite transport in mutants of Escherichia coli K12 defective in electron transport and coupled phosphorylation.
作者信息
Rosenberg H, Cox G B, Butlin J D, Gutowski S J
出版信息
Biochem J. 1975 Feb;146(2):417-23. doi: 10.1042/bj1460417.
Abstract
- The uptakes of Pi and serine by whole cells of mutant strains of Escherichia coli K12, grown under both aerobic and anaerobic conditions, were studied. 2. Uptake by aerobic cells was low in a ubiquinone-less mutant but normal in two mutant strains unable to couple phosphorylation to electron transport. 3. One of these uncoupled strains, carrying the unc-405 allele, does not form a membrane-bound Mg2+-stimulated adenosine triphosphatase aggregate, and it is concluded that the Mg2+-stimulated adenosine triphosphatase does not serve a structural role in the aerobic active transport of Pi or serine. 4. The other uncoupled strain, in which aerobic uptake is unaffected, carries a mutation in the uncB gene, thus distinguishing this gene from the etc gene, previously shown to be concerned with the coupling of electron transport to active transport. 5. The uptakes of Pi and serine by anaerobic cells were normal in the ubiquinone-less mutant, but defective in both the uncoupled strains. 6. The uptake of Pi and serine by anaerobic cells of the uncB mutant could be increased by the addition of fumarate to the uptake medium. The unc-405 mutant, however, required the addition of fumarate for growth and for uptake. 7. The uncB mutant, unlike the unc-405 mutant, is able to grow anaerobically in a minimal medium with glucose as sole source of carbon. Similarly a strain carrying a mutation in the frd gene, which is the structural gene for the enzyme fumarate reductase, is able to grow anaerobically in a glucose-minimal medium. However, a mutant strain carrying mutations in both the uncB and frd genes resembles the unc-405 mutant in not being able to grow under these conditions.
摘要
- 研究了在需氧和厌氧条件下生长的大肠杆菌K12突变株全细胞对磷酸根离子(Pi)和丝氨酸的摄取情况。2. 在无泛醌突变体中,需氧细胞的摄取量较低,但在两个无法将磷酸化与电子传递偶联的突变株中摄取量正常。3. 其中一个解偶联菌株携带unc - 405等位基因,不形成膜结合的镁离子刺激的三磷酸腺苷酶聚集体,由此得出结论,镁离子刺激的三磷酸腺苷酶在Pi或丝氨酸的需氧主动运输中不发挥结构作用。4. 另一个解偶联菌株,其需氧摄取不受影响,uncB基因发生突变,从而将该基因与先前显示与电子传递和主动运输偶联有关的etc基因区分开来。5. 在无泛醌突变体中,厌氧细胞对Pi和丝氨酸的摄取正常,但在两个解偶联菌株中存在缺陷。6. 向摄取培养基中添加富马酸盐可增加uncB突变体厌氧细胞对Pi和丝氨酸的摄取。然而,unc - 405突变体生长和摄取都需要添加富马酸盐。7. 与unc - 405突变体不同,uncB突变体能够在以葡萄糖为唯一碳源的基本培养基中厌氧生长。同样,携带延胡索酸还原酶结构基因frd基因突变的菌株也能够在葡萄糖基本培养基中厌氧生长。然而,同时携带uncB和frd基因突变的突变株在这些条件下无法生长,这与unc - 405突变体相似。
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