Carbon monoxide (CO) plays a multifaceted role in the physiology of organisms, from poison to signaling molecule. Heme proteins, including terminal oxidases, are plausible CO targets. Three quinol oxidases terminate the branched aerobic respiratory chain of Escherichia coli. These are the heme-copper cytochrome bo3 and two copper-lacking bd-type cytochromes, bd-I and bd-II. All three enzymes generate a proton motive force during the four-electron oxygen reduction reaction that is used for ATP production. The bd-type oxidases also contribute to mechanisms of bacterial defense against various types of stresses. Here we report that in E. coli cells, at the enzyme concentrations tested, cytochrome bd-I is much more resistant to inhibition by CO than cytochrome bd-II and cytochrome bo3. The apparent half-maximal inhibitory concentration values, IC50, for inhibition of O2 consumption of the membrane-bound bd-II and bo3 oxidases by CO at-150 & mu;M O2 were estimated to be 187.1 & PLUSMN; 11.1 and 183.3 & PLUSMN; 13.5 & mu;M CO, respectively. Under the same conditions, the maximum inhibition observed with the membrane-bound cytochrome bd-I was 20 & PLUSMN; 10% at-200 & mu;M CO.

The terminal oxidase cytochrome bd-I confers carbon monoxide resistance to Escherichia coli cells / Nastasi, Martina R; Borisov, Vitaliy B; Forte, Elena. - In: JOURNAL OF INORGANIC BIOCHEMISTRY. - ISSN 0162-0134. - 247:(2023), p. 112341. [10.1016/j.jinorgbio.2023.112341]

The terminal oxidase cytochrome bd-I confers carbon monoxide resistance to Escherichia coli cells

Nastasi, Martina R;Forte, Elena
2023

Abstract

Carbon monoxide (CO) plays a multifaceted role in the physiology of organisms, from poison to signaling molecule. Heme proteins, including terminal oxidases, are plausible CO targets. Three quinol oxidases terminate the branched aerobic respiratory chain of Escherichia coli. These are the heme-copper cytochrome bo3 and two copper-lacking bd-type cytochromes, bd-I and bd-II. All three enzymes generate a proton motive force during the four-electron oxygen reduction reaction that is used for ATP production. The bd-type oxidases also contribute to mechanisms of bacterial defense against various types of stresses. Here we report that in E. coli cells, at the enzyme concentrations tested, cytochrome bd-I is much more resistant to inhibition by CO than cytochrome bd-II and cytochrome bo3. The apparent half-maximal inhibitory concentration values, IC50, for inhibition of O2 consumption of the membrane-bound bd-II and bo3 oxidases by CO at-150 & mu;M O2 were estimated to be 187.1 & PLUSMN; 11.1 and 183.3 & PLUSMN; 13.5 & mu;M CO, respectively. Under the same conditions, the maximum inhibition observed with the membrane-bound cytochrome bd-I was 20 & PLUSMN; 10% at-200 & mu;M CO.
2023
Carbon monoxide; cytochrome; heme protein; inhibition; resistance; terminal oxidase
01 Pubblicazione su rivista::01a Articolo in rivista
The terminal oxidase cytochrome bd-I confers carbon monoxide resistance to Escherichia coli cells / Nastasi, Martina R; Borisov, Vitaliy B; Forte, Elena. - In: JOURNAL OF INORGANIC BIOCHEMISTRY. - ISSN 0162-0134. - 247:(2023), p. 112341. [10.1016/j.jinorgbio.2023.112341]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1687701
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