Focusing on the mechanism linking complex I and ATP synthase depicted in figure 3 in the article, compare that hypothetical mechanism to the classical presentation described in textbooks. What are the major differences between this mechanism and Peter Mitchel’s original chemiosmotic theory? What are the similarities.

 

Transcribed Image Text:

matrix side or n side NADH + H+ NAD+ complex I U: U DESODO putative proton current by Brownian motion ADP + Pi a subunit OG F1 ATP synthase OH ОН ОН ОН ОН do < od HOFO ATP synthase HO ОН ОН ОН ОН ОН putative proton tunnelling through a subunit OH ATP 00 glutamic 58 of c subunit periplsmatic side or p side Figure 3. A possible H+ circuit inside respiring membrane. The phosphate groups of phospholipids on both sides of the membrane are shown by brown ellipsoids. The image proposes that the H+ (red dotted line) are transferred to the Glu 58 (E58) at the centre of subunit c through subunit a of ATP synthase by proton tunnelling. H+ would flow from the periplasmic side, always bound to phospholipid heads. This can be arranged in each layer of the membrane.