1. Which of the following is a coenzyme associated with cellular respiration? �� A. NAD+ � B. O2 � C. FAD � D. both A and C �
2. Since glucose is a high-energy molecule and its metabolites, CO2 and H2O are low-energy molecules, the breakdown of�glucose would be described as an _____ reaction. �� A. exergonic � B. endergonic �
3. NAD+ is _____ when it accepts two electrons and a hydrogen ion (H+). �� A. reduced � B. oxidized �
4. About _____ of the energy in glucose is transformed into ATP. �� A. 5% � B. 40% � C. 75% � D. 100% �
5. Which of the following statements correctly describes glycolysis? �� A. Glycolysis occurs in the mitochondria. � B. glycolysis requires O� C. Glycolysis produces two molecules of pyruvate. � D. all of the above �
6. Which of the following is not a product of the complete breakdown of glucose? �� A. O2 � B. CO2 � C. ATP � D. H2O �
7. The first phase of glucose metabolism is _____. �� A. the Krebs cycle � B. glycolysis � C. the electron transport system � D. the transition reaction �
8. The coenzymes NAD and FAD carry electrons to the _____. �� A. nucleus � B. Krebs cycle � C. plasma membrane � D. electron transport system �
9. Since it is universally found in organisms, researchers believe_____ evolved first. �� A. the electron transport system � B. Krebs cycle � C. glycolysis �
10. The inputs of glycolysis include _____. �� A. glucose � B. NAD+ � C. ATP � D. all of the above �
11. When a phosphate is transferred from a high-energy molecule of ADP to form ATP it's referred to as _____. �� A. photophosphorylation � B. substrate-level phosphorylation � C. oxidative phosphorylation �
12. Glycolysis occurs in the _____. �� A. cytosol � B. matrix � C. cristae � D. nucleus �
13. There is/are _____ pyruvate molecule(s) produced per glucose molecule during glycolysis. �� A. one � B. two � C. six � D. ten �
14. If oxygen is not available _____ follows glycolysis. �� A. fermentation � B. the transition reaction � C. the Krebs cycle � D. the electron transport system �
15. When oxygen is available, pyruvate enters the _____. �� A. nucleus � B. chloroplast � C. plasma membrane � D. mitochondria �
16. Each of the two pyruvates produced during glycolysis has _____ carbons. �� A. 3 � B. 6 � C. 12 � D. 36 �
17. Which of the following is NOT a product (an output) of glycolysis? �� A. NADH � B. pyruvate � C. CO2 � D. ATP �
18. The "after taxes" (net gain) number of ATP produced during glycolysis is _____. �� A. 1 � B. 2 � C. 4 � D. 32 �
19. The ATP produced during glycolysis are produced by _____. �� A. substrate-level phosphorylation � B. oxidative phosphorylation � C. photophosphorylation �
20. The enzymes of the transition reaction and Krebs cycle are located in the _____. �� A. cytosol � B. matrix � C. cristae � D. thylakoids �
21. The __________ connects glycolysis to the Krebs cycle. �� A. electron transport system � B. transition reaction � C. cristae � D. mitochondrial intermembrane �
22. When electrons are removed from pyruvate in the transition reaction, they are accepted by _____. �� A. acetyl Co-A � B. FAD � C. NAD+ � D. ATP �
23. Acetyl Co-A is formed during the transition reaction by attaching _____ to a two-carbon acetyl group. �� A. NAD+ � B. coenzyme A � C. pyruvate � D. oxaloacetate �
24. The first metabolite of the Krebs cycle is __________. �� A. lactate � B. pyruvate � C. oxaloacetate � D. citrate �
25. Which of the following is an output of the Krebs cycle? �� A. CO2 � B. ATP � C. FADH2 � D. all of the above �
26. Which of the following Krebs cycle products is disposed of by our respiratory system when we exhale? �� A. CO2 � B. ATP � C. NADH � D. FADH2 �
27. The electrons that enter the electron transport system are carried there by _____. �� A. NADH � B. FADH2 � C. both A and B �
28. The energy released by the electron transport system produces ATP by _____. �� A. photophosphorylation � B. substrate-level phosphorylation � C. oxidative phosphorylation �
29. The electron transport system is located in the _____. �� A. stroma � B. matrix � C. cytosol � D. cristae �
30. When O2 is reduced during the electron transport system, _____ is produced. �� A. H2O � B. CO2 � C. ADP � D. glucose �
31. When NADH produced during the transition reaction and Krebs cycle delivers electrons to the electron transport system,�_____ ATP is/are produced. �� A. 1 � B. 2 � C. 3 � D. 36 �
32. The final electron acceptor in the electron transport system is _____. �� A. FADH2 � B. O2 � C. coenzyme Q � D. cytochrome b �
33. How many ATP molecules are produced when FADH2 delivers electrons to the electron transport system? �� A. 1 � B. 2 � C. 4 � D. 36 �
34. Oxygen debt is _____. �� A. the amount of oxygen needed to get rid of lactate � B. the amount of oxygen needed for cellular respiration � C. the amount of oxygen needed for glycolysis � D. the amount of oxygen the US owes Japan �
35. Animal cells perform _____ fermentation. �� A. lactate (lactic acid) � B. alcoholic � C. both A and B �
36. The product of alcoholic fermentation that allows us to make bread is _____. �� A. O2 � B. CO2 � C. H2O � D. lactate �
37. During fermentation, _____ is regenerated and it returns to glycolysis to pick up more electrons. �� A. ATP � B. glucose � C. NAD+ � D. pyruvate �
38. Athletes' cells _____. �� A. metabolize more fats for ATP which maintains blood glucose levels � B. have the same number of mitochondria as a "couch potato" � C. produce large quantities of lactate and H+ � D. all of the above �
39. Metabolites of glycolysis and the Krebs cycle can be converted to _____. �� A. amino acids � B. glycerol � C. fatty acids � D. all of the above �
40. Catabolism _____. �� A. breaks down molecules � B. tends to be exergonic � C. drives anabolism � D. all of the above �
