Define oxidative phosphorylation and explain how the free energy of oxidation of NADH and FADH2 is...

Mitochondria produce most of the cell's ATP by oxidative phosphorylation. Electrons from NADH and FADH2 formed...

Mitochondria produce most of the cell's ATP by oxidative phosphorylation. Electrons from NADH and FADH2 formed in the TCA cycle are transported through the electron transport chain (ETC) which consists of four complexes (I, II, III and IV). Hereby, a proton gradient is formed across the inner membrane of the mitochondria which is used by the ATP synthase to form ATP. In isolated mitochondria, oxygen consumption rate (OCR) and rate of ATP synthesis can be determined, respectively. Seahorse and NOVOstar...

Oxidation NADH and FADH2 are often considered “energy currency” in cellular metabolism because they are generated...

Oxidation NADH and FADH2 are often considered “energy currency” in cellular metabolism because they are generated directly from Glycolysis and the TCA cycle. Using the following half-cell potentials, calculate the Gibbs Free Energy that can be derived from the oxidation of NADH and FADH2. Use the Faraday Constant at 96,500 J/V mol.(should get two values) FAD + 2H+ +2 e- = FADH2 Eo = -0.219V NAD+ + H+ + 2 e- = NADH Eo = -0.320V

During aerobic respiration, the entries of NADH and FADH2 into the electron transport chain generate different...

During aerobic respiration, the entries of NADH and FADH2 into the electron transport chain generate different numbers of ATP molecules via oxidative phosphorylation. a) DRAW a labelled diagram that summarises the process. b) Show the calculations that explain the different the number of ATP produced.

Oxidative Phosphorylation is dependent on all of the following except: a. An increase in the standard...

Oxidative Phosphorylation is dependent on all of the following except: a. An increase in the standard reduction potential as electrons move from NADH to oxygen b. A pH gradient c. The ratio of ADP to ATP d. The change in free energy e. C and D

FADH2 Oxidation Shuttle and ATP: Why the oxidation chain that includes the FAHD2 yields less ATP...

FADH2 Oxidation Shuttle and ATP: Why the oxidation chain that includes the FAHD2 yields less ATP (30 ATP) than the NADH oxidation chain (32 ATP)?

in the electron transport chain, what is the energy from NADH & FADH2 being used to...

in the electron transport chain, what is the energy from NADH & FADH2 being used to do? a. To split a glucose molecule in half. b. To actively pump H+ ions and create a proton (H+) gradient. c. To ‘charge up’ the many electron carriers, NADH & FADH2 to be used in the electron transport chain. d. To make 32 ATP

You are working with a bacterial species in which the P/O ratio for NADH oxidation is...

You are working with a bacterial species in which the P/O ratio for NADH oxidation is 2.5 and the P/O ratio for succinate oxidation is 1.5. If 10 NADH are made per glucose molecule catabolized, what is the total yield of ATP from oxidative phosphorylation, per molecule of glucose? 28 40 4 26.5 25

1) a) Which 3 steps during glycolysis are important for oxidative phosphorylation? b) What is the...

1) a) Which 3 steps during glycolysis are important for oxidative phosphorylation? b) What is the importance of FADH2 and NADH in cellular respiration?

Diagram the process of electron transport (from NADH to O2 ) and oxidative phosphorylation in a...

Diagram the process of electron transport (from NADH to O2 ) and oxidative phosphorylation in a suspension of these vesicles.

Electron Transport and Oxidative Phosphorylation 1.   What is the source of most of the energy utilized...

Electron Transport and Oxidative Phosphorylation 1.   What is the source of most of the energy utilized in ATP synthesis? Is this the same source for complex II? 2.   What is the role of coenzyme Q in electron transport in Complex I? Complex II? 3. Is complex II a mobile redox center or stationary must electrons pass through it to Go to complex III? Explain the following statement in your own words: Since the free energy of oxidation of fully reduced...