Aerobic respiratory chain of Escherichia coli is not allowed to work in fully uncoupled mode

摘要

Escherichia coli is known to couple aerobic respiratory catabolism to ATP synthesis by virtue of the primary generators of the proton motive force-NADH dehydrogenase I, cytochrome bo_3, and cyto-chrome bd-l. An E. coli mutant deficient in NADH dehydrogenase I, bo_3 and bd- can, nevertheless, grow aerobically on nonfermenta-ble substrates, although its sole terminal oxidase cytochrome bd- has been reported to be nonelectrogenic. In the current work, the ability of cytochrome bd- to generate a proton motive force is reexamined. Absorption and fluorescence spectroscopy and oxygen pulse methods show that in the steady-state, cytochrome bd- does generate a proton motive force with a H+/e~ ratio of 0.94 ±0.18. This proton motive force is sufficient to drive ATP synthesis and transport of nutrients. Microsecond time-resolved, single-turnover electrometry shows that the molecular mechanism of generating the proton motive force is identical to that in cytochrome bd-. The ability to induce cytochrome bd- biosynthesis allows E. coli to remain energetically competent under a variety of environmental conditions.