Single Enzyme Experiments Reveal a Long-Lifetime Proton Leak State in a Heme-Copper Oxidase

Li, Mengqiu; Jørgensen, Sune K.; McMillan, Duncan G. G.; Krzemiński, Łukasz; Daskalakis, Nikolaos N.; Partanen, Riitta; Tutkus, Marijonas; Tůma, Roman; Stamou, Dimitrios; Hatzakis, Nikos S.; Jeuken, Lars J. C.

doi:10.1021/jacs.5b08798

Cited by 47 publications

(62 citation statements)

References 45 publications

(106 reference statements)

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“…bo 3 was studied at single‐molecule level. The results from these studies suggested that an oxidase molecule could enter a “long‐lifetime leak state” during turnover . This is a surprising observation because a proton leak across any of the cyt.…”

Section: Introductionmentioning

confidence: 91%

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Single Proteoliposomes with E. coli Quinol Oxidase: Proton Pumping without Transmembrane Leaks

Berg

Block

Höök

et al. 2017

Israel Journal of Chemistry

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Respiratory oxidases are transmembrane enzymes that catalyze the reduction of dioxygen to water in the final step of aerobic respiration. This process is linked to proton pumping across the membrane. Here, we developed a method to study the catalytic turnover of the quinol oxidase, cytochrome bo3 from E. coli at single‐molecule level. Liposomes with reconstituted cytochrome bo3 were loaded with a pH‐sensitive dye and changes in the dye fluorescence, associated with proton transfer and pumping, were monitored as a function of time. The single‐molecule approach allowed us to determine the orientation of cytochrome bo3 in the membrane; in ∼70 % of the protein‐containing liposomes protons were released to the outside. Upon addition of substrate we observed the buildup of a ΔpH (in the presence of the K+ ionophore valinomycin), which was stable over at least ∼800 s. No rapid changes in ΔpH (proton leaks) were observed during steady state proton pumping, which indicates that the free energy stored in the electrochemical gradient in E. coli is not dissipated or regulated through stochastic transmembrane proton leaks, as suggested from an earlier study (Li et al. J. Am. Chem. Soc. (2015) 137, 16055–16063).

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Section: Introductionmentioning

confidence: 91%

“…bo 3 per liposome. While in the earlier study electrons were supplied to the cyt. bo 3 via a gold electrode, in the present study the electrons were supplied from ubiquinol (UQ 1 ) and the reducing agent dithiothreitol (DTT).…”

Section: Introductionmentioning

confidence: 99%

Single Proteoliposomes with E. coli Quinol Oxidase: Proton Pumping without Transmembrane Leaks

Berg

Block

Höök

et al. 2017

Israel Journal of Chemistry

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“…Patch clamp recording has made it possible to observe the functional dynamics of single ion channels revealing discrete on and off states, subconductance states, and other mechanistically important features that macroscopic experiments cannot probe (2). However, despite extensive structural and biochemical efforts (3), we currently lack a similar depth of understanding of transporters because they in general do not produce electrically detectable single-molecule transport signals (4–8). Here we monitored at the single-molecule level the functional dynamics of a eukaryotic primary active transporter, Arabidopsis thaliana H + -ATPase isoform 2 (AHA2, referred to as the proton pump), which is responsible for energizing the plasma membrane of plants and fungi (Fig.…”

Section: Main Textmentioning

confidence: 99%

Direct observation of proton pumping by a eukaryotic P-type ATPase

Veshaguri

Christensen

Kemmer

et al. 2016

Science

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In eukaryotes, P-type ATPases generate the plasma membrane potential and drive secondary transport systems; however, despite their importance, their regulation remains poorly understood. Here we monitored at the single-molecule level the activity of the prototypic proton pumping P-type ATPase Arabidopsis thaliana isoform 2 (AHA2). Our measurements combined with a physical non-equilibrium model of vesicle acidification, revealed that pumping is stochastically interrupted by long-lived (~100 s) inactive or leaky states. Allosteric regulation by pH gradients modulated the switch between these states, but not the pumping or leakage rates. The autoinhibitory regulatory domain of AHA2 reduced the intrinsic pumping rates, but increased the dwell time in the active pumping state. We anticipate that similar functional dynamics underlie the operation and regulation of many other active transporters.

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“…[9] Inspired by this finding,w e present herein as et of noncovalently associated C 60 -pphenylene oligomers,i nw hich the p-conjugation length of the oligomers in the bridges has been systematically altered. [11] From as ynthetic perspective,a symmetric p-phenylene oligomers with aldehyde and carboxylic termini are the key intermediates en route to pyrrolidino[3,4:1,2][60]fullerenes 1a-d.T hese oligomers were synthesized by Suzuki crosscoupling reactions between bromoaryl and organoborane compounds in the presence of ap alladium(II) catalyst and afluorine salt as abase and additive,which is crucial for the success of the cross-coupling reaction. On the basis of this molecular design, we determined the effects of distance and the rate at which electron-transfer processes occur,a sw ell as the molecularwire behavior of systems based on p conjugation and hydrogen bonds.T his bioinspired approach combining electron transfer through supramolecular and covalent connectivity resembles charge transport in av ariety of natural processes, such as photosynthesis [10] and cellular respiration.…”

mentioning

confidence: 99%

“…On the basis of this molecular design, we determined the effects of distance and the rate at which electron-transfer processes occur,a sw ell as the molecularwire behavior of systems based on p conjugation and hydrogen bonds.T his bioinspired approach combining electron transfer through supramolecular and covalent connectivity resembles charge transport in av ariety of natural processes, such as photosynthesis [10] and cellular respiration. [11] From as ynthetic perspective,a symmetric p-phenylene oligomers with aldehyde and carboxylic termini are the key intermediates en route to pyrrolidino[3,4:1,2][60]fullerenes 1a-d.T hese oligomers were synthesized by Suzuki crosscoupling reactions between bromoaryl and organoborane compounds in the presence of ap alladium(II) catalyst and afluorine salt as abase and additive,which is crucial for the success of the cross-coupling reaction. [12] Subsequent 1,3dipolar cycloaddition reactions were used to link the pphenylene oligomers to C 60 through apyrrolidine ring to yield 1a-d in high yields (see the Supporting Information for synthetic details).…”

mentioning

confidence: 99%

Determining the Attenuation Factor in Molecular Wires Featuring Covalent and Noncovalent Tectons

et al. 2016

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Single Enzyme Experiments Reveal a Long-Lifetime Proton Leak State in a Heme-Copper Oxidase

Cited by 47 publications

References 45 publications

Single Proteoliposomes with E. coli Quinol Oxidase: Proton Pumping without Transmembrane Leaks

Single Proteoliposomes with E. coli Quinol Oxidase: Proton Pumping without Transmembrane Leaks

Direct observation of proton pumping by a eukaryotic P-type ATPase

Determining the Attenuation Factor in Molecular Wires Featuring Covalent and Noncovalent Tectons

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