Explain the thermodynamic principle underlying the sequential ordering of electron carriers in a functional electron transport...

Iron is a component of many of the electron carriers of the eletron-transport chain. How can...

Iron is a component of many of the electron carriers of the eletron-transport chain. How can it participate in a series of coupled redox reactions if the E0' is +0.77V

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

Explain the mechanism by which electron transfer within complex I of the electron transport chain powers...

Explain the mechanism by which electron transfer within complex I of the electron transport chain powers proton pumping by that complex.

Although both molecules are two electron carriers, NADH generates 2.5 ATP and FADH2 generates only 1.5...

Although both molecules are two electron carriers, NADH generates 2.5 ATP and FADH2 generates only 1.5 ATPs. 1) Explain how electron transport plays a role in ATP synthesis. 2) Explain why a different amount of ATP is produced for each of these electron carriers.

Oxidative phosphorylation or mitochondrial electron transport and the light reaction of photosynthesis are similar in all...

Oxidative phosphorylation or mitochondrial electron transport and the light reaction of photosynthesis are similar in all the following ways except ONE. A. Both use ATP synthase to produce ATP. B. Both involve electron transport chain. C. Both require high energy electrons from NADH to keep going. D. Both use small membrane associated electron carriers E. Both require an intact membrane.

Pick one of the following protein molecules in the electron transport chain: FMN, CoQ, or cytochrome...

Pick one of the following protein molecules in the electron transport chain: FMN, CoQ, or cytochrome C. Explain how a deficiency in this molecule could affect the electron transport chain.

A) Explain how many electrons would enter Complex I of the electron transport chain from the...

A) Explain how many electrons would enter Complex I of the electron transport chain from the complete oxidation of Myristic Acid, 14:0? Please show work

Electrons removed from H2O molecules are transported through the photosystems and photosynthetic electron transport chain and...

Electrons removed from H2O molecules are transported through the photosystems and photosynthetic electron transport chain and are ultimately used to reduce NADP+ to NADPH. At what point do the electrons have the greatest amount of potential energy? Explain a. when they are transferred to the cytochrome complex of the electron transport chain b. after capturing energy from sunlight in the reaction center of photosystem II c. after capturing energy from sunlight in the reaction center of photosystem I d. just...

Does electron transport stop if rotenone is added? why? explain.

Does electron transport stop if rotenone is added? why? explain.

Explain the type of electron transport which is best represented with the Drude Formula.

Explain the type of electron transport which is best represented with the Drude Formula.