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7.Glycolysis is the process of _______.

A. adding 4 ATP molecules to produce pyruvate C. glucose molecule oxidation to form FADH and NADPH

B. breaking the glucose into 2,3 carbon molecule D. breaking the glucose molecule to produce acetyl CoA
9. The enzymatic redox reaction process in Krebs Cycle produces what molecule?

A. Cytochrome oxidase C. Oxaloacetate

B. Succinate Acetate D. Oxaloxide

10. During electron transport chain, energy from the electrons of NADH and FADH2 is used in the process

chemiosmosis to __________.

A. reduce NADH to NAD+ C. phosphorylate ADP to ATP

B. reduce FADH2 to FAD D. pump hydrogen ions across the membrane​

Respuesta :

samueladesida43

Answer:

7. D. breaking the glucose molecule to produce acetyl CoA

8. C. Oxaloacetate

10. phosphorylate ADP to ATP

Explanation:

Cellular respiration is the metabolic process by which energy in form of ATP is obtained in a cell. However, it occurs in three major stages namely: glycolysis, Krebs cycle and electron transport chain (oxidative phosphorylation).

- Glycolysis is the process where glucose is broken down to produce pyruvate, which is then processed into acetyl coA before it enters the next stage (Krebs cycle).

- Krebs cycle is the stage where series of REDOX reactions occur to produce OXALOACETIC ACID as a final product, which accepts acetyl coA for another cycle to begin.

- Electron transport chain (ETC) uses the energy derived from the electron carriers energy NADH and FADH2 to phosphorylate ADP to ATP in a process called CHEMIOSMOSIS.

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