1996
DOI: 10.1016/0014-5793(95)01536-1
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The H+/ATP coupling ratio of the ATP synthase from thiol‐modulated chloroplasts and two cyanobacterial strains is four

Abstract: In this paper the authors emphasise that the proton translocating ATP synthase from thiol-modulated chloroplasts and two cyanobaeterial strains has a coupling ratio of 4 protons per ATP synthesised or hydrolysed. This ratio is determined by several thermodynamic studies at equilibrium between phosphate potential (AGp) and proton gradient (zl/iu+), and is confirmed by measurement of proton flux during ATP hydrolysis. Ratios lower than 4 H+IATP that have been published in the past have predominantly been determi… Show more

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Cited by 123 publications
(65 citation statements)
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References 29 publications
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“…Thus, in ATP synthesis, a proton gradient would drive the rotation of the c subunit ring (clockwise when viewed from a periplasmic side), which would allow the ␥ subunit to interact sequentially with the three ␣␤ pairs in a way that favors synthesis of ATP in the catalytic sites, each from already bound ADP and P i . In this mechanism, three molecules of ATP would be synthesized in one full turn of the rotor (requiring translocation of 12 protons), which gives an ATP͞proton ratio of 1:4, close to that observed experimentally (22)(23)(24). In the reverse direction (ATP hydrolysis), it can be imagined that rotation of the ␥--c rotor (counterclockwise) brings c subunits that had been protonated from a cytoplasmic side (at Asp-61 in E. coli numbering system) into contact with the a subunit for deprotonation and subsequent release of the proton on the opposite side of the membrane.…”
supporting
confidence: 84%
“…Thus, in ATP synthesis, a proton gradient would drive the rotation of the c subunit ring (clockwise when viewed from a periplasmic side), which would allow the ␥ subunit to interact sequentially with the three ␣␤ pairs in a way that favors synthesis of ATP in the catalytic sites, each from already bound ADP and P i . In this mechanism, three molecules of ATP would be synthesized in one full turn of the rotor (requiring translocation of 12 protons), which gives an ATP͞proton ratio of 1:4, close to that observed experimentally (22)(23)(24). In the reverse direction (ATP hydrolysis), it can be imagined that rotation of the ␥--c rotor (counterclockwise) brings c subunits that had been protonated from a cytoplasmic side (at Asp-61 in E. coli numbering system) into contact with the a subunit for deprotonation and subsequent release of the proton on the opposite side of the membrane.…”
supporting
confidence: 84%
“…The calibration with respect to pHi~ was realized by a series of different equilibrium states at the ATP synthase where the phosphate potential is balanced by the transmembrane potential of H + as described in detail elsewhere [15,16]. The H+/ATP coupling ratio of 4 used during this procedure has been confirmed recently [17]. The resulting calibration curve is presented in Fig.…”
Section: Methodsmentioning
confidence: 99%
“…The detailed reaction pattern used here is presented in Fig. 5 and may be described as follows: (1 [15,17]. (6) The events attributed to the membrane-spanning F0 domain are described as a series of four conformational changes A0 ~ A1 ~ A2 ~ A3 ~ A4, each step being driven by the translocation of one proton across F0 from the inside to the out-…”
Section: : 2 Functional Model Of the Atp Synthase Used For Simulatiomentioning
confidence: 99%
“…This stoichiomerty is different form that of F-ATPase, in which there are ~12 c subunits, which have only 2 trans-membrane helices, each with a unique glutamic acid. So in FATPase a synthesis of one ATP also drives 120 degrees rotation, which, however, requires a movement of 4 subunits c, hence 4 protons (Van Walraven et al 1996;Panke and Rumberg 1997;Stock et al 1999;Ferguson 2000;Seelert et al 2000;Stahlberg et al 2001). In the case of F-ATPase rotation and ATP synthesis is driven by trans-membrane delta pH, but it should be noted that both enzymes can work in both directions depending on the conditions Itoh et al 2004;Rondelez et al 2005;Feniouk et al 2007;Nakano et al 2008).…”
Section: Introductionmentioning
confidence: 99%