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Cellular Respiration Study Guide NAME: ____KEY____________________ Biology Due Date: ___________ Work 1. ATP is needed for cells to do this Oxidation-reduction 2. Reactions in which one reactant loses electrons and the other reactant gains electrons Cytoplasm 3. Name the two locations of cellular respiration Mitochondria Cellular respiration 4. Is the process in which cells make ATP by breaking down glucose Outer membrane 5. Name the 4 parts of the mitochondrion Inner membrane Matrix Cristae Glycolysis 6. Two major stages of cellular respiration Aerobic respiration Glycolysis 7. Is the process of glucose being split into two molecules of pyruvic acid Glycolysis 8. The 4 individual steps of cellular respiration Intermediate step Krebs cycle Electron transport chain 2 9. Number of ATP’s used in glycolysis Cytoplasm 10. Location of glycolysis 4 11. Initial number of ATP’s made in glycolysis 2 12. Number of NADH’s made in glycolysis Anaerobic 13. Glycolysis is _______________, meaning without oxygen 2 14. Net number of ATP’s made in glycolysis Fermentation 15. Happens when oxygen is not present after glycolysis Krebs cycle 16. The two major steps of aerobic respiration Electron Transport Chain Cellular Respiration Study Guide Biology Lactic acid 17. Fermentation done by humans NAME: ____KEY____________________ Due Date: ___________ Krebs cycle 18. Is this step finishes the oxidation of glucose and makes NADH and ATP Alcoholic 19. Fermentation done by yeasts and other microorganisms Lactic acid 20. This causes sore muscles Electron transport chain 21. This step produces the majority of the ATP via chemiosmosis Mitochondrial matrix 22. The location of the Krebs cycle in eukaryotes Cytoplasm 23. Where the Krebs cycle and the electron transport chain take place in prokaryotes Matrix 24. The space inside the inner membrane of the mitochondrion Cristae 25. Location of the electron transport chain in eukaryotes Intermediate step 26. The step between glycolysis and the Krebs cycle Cristae 27. This is the folds of the inner membrane within the mitochondrion Krebs cycle 28. Is the biochemical pathway that breaks down acetyl CoA, producing CO2, hydrogen atoms, and ATP Twice 29. Number of times the Krebs cycle runs 6 30. Amount of NADH made in the Krebs cycle 2 31. Amount of ATP made in the Krebs cycle Hans Krebs 32. Man who discovered the Krebs cycle 3 ATP 33. One NADH molecule is equivalent to this Electron transport chain 34. This is a series of molecules in the cristae of the mitochondrion ATP synthase 35. Enzyme that makes ATP 2 ATP 36. One FADH2 molecule is equivalent to this 38 ATP 37. Total number of ATP made in cellular respiration in ideal conditions Oxygen 38. Is the final electron acceptor of the ETC 30-36 39. Total number of ATP made in cellular respiration in reality Concentration 40. The formation of these two types of gradients, pump protons through ATP synthase Electrical Cellular Respiration Study Guide Biology Intramembranous space of the mitochondrion NAME: ____KEY____________________ Due Date: ___________ 41. The location of the intermediate step Coenzyme A 42. Enzyme that is regenerated in the first step of the Krebs cycle Oxaloacetic acid 43. Compound that is regenerated at the end of the Krebs cycle to continue the process Short Answer Questions: Write in complete sentences where applicable. 44. Write the overall equation for cellular respiration. (1 point) 45. Explain the connection between cellular respiration and photosynthesis. (2 points) The products of photosynthesis are used as reactants for cellular respiration and the products of cellular respiration are used as reactants for photosynthesis. The two processes are interdependent on each other. 46. Explain the steps of glycolysis in words. (4 points) 1. Glucose is converted into a new 6-C compound by using 2 ATP’s 2. The 6-C compound is then split into two 3 carbon molecules of G3P 3. The 2 G3P molecules are then oxidized into 2 new 3-C molecules by reducing 2 NAD+ into 2 NADH & 2H+ 4. Finally, 4 ADP molecules are added to the 3-C molecules, forming 2 molecules of pyruvic acid, 4 ATP’s, & 2 H2O Cellular Respiration Study Guide Biology 47. Illustrate the process of glycolysis. (5 points) NAME: ____KEY____________________ Due Date: ___________ 48. Explain or draw out the steps for lactic acid fermentation. (3 points) 2 pyruvic acid molecules are converted into lactic acid with the oxidation of NADH into NAD+ 49. Explain or draw out the steps for alcoholic acid fermentation. (3 points) 2 pyruvic acid molecules are converted into ethanol with the oxidation of NADH into NAD+ and carbon dioxide is given off as a result of a carbon being spliced off of pyruvic acid 50. Illustrate the intermediate step of cellular respiration. (3 points) Cellular Respiration Study Guide NAME: ____KEY____________________ Biology Due Date: ___________ 51. Explain the steps of the Krebs cycle in words. (5 points) 1. Acetyl CoA (2C) combines with oxaloacetic acid (4C) producing citric acid (6C) and regenerating coenzyme A 2. Citric acid releases CO2 and a hydrogen atom to form a 5C compound. NAD+ is reduced into NADH + H+ 3. 5C compound releases CO2, a H+ atom, and forms a 4C compound. NAD+ is reduced into NADH + H+ again. ATP is also made 4. 4C compound releases H+ to form another 4C compound and FAD is reduced to FADH2 5. The second 4C compound releases a H+ atom to regenerate oxaloacetic acid. NAD+ is reduced into NADH + H+ again Cycle runs twice to use all the pyruvic acid made in glycolysis 52. Illustrate the Krebs cycle. (6 points) Cellular Respiration Study Guide Biology NAME: ____KEY____________________ Due Date: ___________ 53. Illustrate the electron transport chain. (5 points) 54. Explain the steps of the electron transport chain in words. (5 points) 1. NADH & FADH2 give up electrons to the electron transport chain. Protons are also given up by these molecules 2. The electrons are passed down the chain, losing energy at every exchange 3. The energy loss from moving electrons is used to pump protons between the inner & outer membranes forming concentration & electrical gradients 4. The concentration & electrical gradients of protons drive the synthesis of ATP by chemiosmosis 5. Oxygen is the final acceptor of electrons, forming water 55. Write out the energy accounting for the all the steps in cellular respiration. (7 points) Cellular Respiration Study Guide NAME: ____KEY____________________ Biology Due Date: ___________ 56. Compare and contrast photosynthesis and cellular respiration. (10 points)