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- ...mical potential difference across the mtIM generated by the [[hydrogen ion pumps]] of the .972 bytes (125 words) - 11:13, 9 December 2020
- ...I|CI]], [[CIII]] and [[CIV]] are H<sup>+</sup> pumps that drive [[hydrogen ion]]s against the electrochemical [[protonmotive force]] ''pmF'' and thus gene == Hydrogen ion pump or proton pump ==3 KB (400 words) - 19:13, 30 December 2020
- ...ort lifetime in aqueous solutions. There H<sup>+</sup> forms the hydronium ion H<sub>3</sub>O<sup>+</sup>, which in turn is further solvated by water mole == Isotopes of the hydrogen ion ==6 KB (902 words) - 08:22, 17 July 2023
- ...ix space across the mitochondrial inner membrane (mtIM) through the proton pumps of the [[electron transfer pathway]] (ETS), which are known as respiratory ...<sup>+</sup></sub> is the partial protonmotive force specific for hydrogen ion diffusion (d) irrespective of charge. The sign of the force is negative for7 KB (1,194 words) - 21:50, 10 July 2022
- ...and hands-on sessions. Discussions cover protocols for the measurement of hydrogen peroxide production [[Amplex red| (Amplex red)]], mt-membrane potential ([[ ...ction to basic concepts on mitochondrial membrane potential: proton pumps, ion gradients, electrochemical potential (proton motive force) and the measurem8 KB (1,139 words) - 09:41, 1 June 2023
- [[File:Hydrogen ion circuit.jpg|right|300px|thumb|Figure 1.1. Coupling in oxidative phosphoryla :::# Mitchell P (1961) Coupling of phosphorylation to electron and hydrogen transfer by a chemi-osmotic type of mechanism. - [[Mitchell 1961 Nature |ยป89 KB (12,065 words) - 07:03, 14 December 2023
