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Published byTodd Palmer Modified over 6 years ago
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Cellular Respiration C6H12O6 + 6 O2 6 CO2 + 6H2O + 38 ATP
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Cellular Respiration: An Overview
Process by which cells convert the energy in food (usually glucose) into usable ATP. Terms to Know… Oxidation = _________________ Compound becomes more positive Reduction = ____________________ Compound becomes more negative Electrons and protons (H+) travel TOGETHER NAD+ = coenzyme derived from niacin; acts as a H+ and e- acceptor. AN ENERGY CARRIER!
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Cellular Respiration: An Overview
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Substrate-Level Phosphorylation
An enzyme transfers a phosphate group directly from an organic molecule to ADP to form ATP ____________________________________________________________________.
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Oxidative Phosphorylation (ETC + Chemiosmosis)
The production of ATP by using energy derived from the redox reactions of the Electron Transport Chain. The enzyme _____________is needed to phosphorylate the ADP to produce ATP. Almost 90% of the ATP produced from cellular respiration is produced this way.
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Anaerobic Respiration
Cellular Respiration Glucose Glycolysis ATP Oxygen Absent Oxygen Present Anaerobic Respiration (Fermentation) Aerobic Respiration (Krebs Cycle & ETC) ATP
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Glycolysis “________________” Big Picture: Occurs in the cytosol
Glucose (6-C) is broken down into 2 molecules of pyruvate (3-C) Occurs in the cytosol Occurs with or without oxygen Made up of 2 phases: Energy investment phase ___________________
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Glycolysis: Energy Investment Phase
Glucose is converted into 2 G3P (Glyceraldehyde-3-phosphate) __________________________________
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Glycolysis: Energy-Yielding Phase
2 G3P are converted into 2 Pyruvate (3C) molecules. Dehydrogenase enzymes remove H from intermediate compounds and attach them to 2 NAD to produce 2NADH
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Net Gain in Glycolysis 2 ATP 2 NADH - 2 ATP (Energy investment phase)
+ 4 ATP (Energy yielding phase) + 2 ATP 2 NADH _________________ Will be used to make ATP later
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Choices, Choices! If oxygen is absent, anaerobic respiration occurs
___________________ Yeast & some bacteria alcoholic fermentation Animal muscle lactic acid fermentation If oxygen is present, aerobic respiration occurs _________________________________
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Anaerobic Respiration
Cellular Respiration Glucose Glycolysis ATP Oxygen Absent Oxygen Present Anaerobic Respiration (Fermentation) Aerobic Respiration ATP
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Fermentation 2 types _______________________ NAD+ acts as a hydrogen acceptor during glycolysis If the supply of NAD+ runs out, then glycolysis would have to stop. Fermentation occurs as simply a means of recycling the NAD+, so that glycolysis can occur again.
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Alcoholic Fermentation
Occurs in some BACTERIA and YEAST 2 step process: Carbon dioxide is released from pyruvate (3-C), forming acetaldehyde (2-C) Acetaldehyde is reduced by NADH (gains an electron), forming ethyl alcohol (ethanol) ____________________________________________________ Used to produce beer and wine
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Lactic Acid Fermentation
Occurs in ANIMALS 1 step process: Pyruvate is reduced by NADH (gains an electron), forming lactic acid ____________________________________________________________ Occurs in muscle cells, causing muscle pain and fatigue
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Anaerobic Respiration
Cellular Respiration Glucose Glycolysis ATP Oxygen Absent Oxygen Present Anaerobic Respiration (Fermentation) Aerobic Respiration ATP
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Aerobic Respiration After glycolysis, most of the energy from glucose remains “locked” in 2 molecules of pyruvate If oxygen is present, the pyruvate enters the mitochondrial matrix to complete the Krebs Cycle Pyruvate (3-C) is converted to Acetyl CoA (2-C) ________________________________________ NADH is produced
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The Krebs Cycle Yield per pyruvate molecule:
3 NADH 1 FADH2 1 ATP _____________ Yield per glucose molecule (two turns of Krebs Cycle): 6 NADH 2 FADH2 2 ATP 4 CO2 ______________________
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Electron Transport Chain
The ETC converts the NADH and FADH2 from glycolysis and the Krebs Cycle into ATP Occurs in inner membrane of mitochondrion The energy in each NADH molecule moves enough protons (H+) into the mitochondrial matrix to create 3 ATP 1 FADH2 2 ATP
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The Electron Transport Chain
The electrons from NADH and FADH2 are passed from one electron acceptor molecule to another. Each electron acceptor is more electronegative than the last. Oxygen is the final electron acceptor e- ETC oxygen
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Chemiosmosis Similarly to photosynthesis, the energy the electrons lose along the way moves H+ out of the matrix and into the intermembrane space of the mitochondrion As H+ ions diffuse through the membrane, ATP synthase uses the energy to join ADP and a phosphate group ATP
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Oxidative Phosphorylation: ETC & Chemiosmosis
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Aerobic Respiration: Total Energy Yield
Glycolysis: 2 ATP (Net) 2 NADH 6 ATP Krebs Cycle: 2 ATP 8 NADH24 ATP (ETC) 2 FADH2 4 ATP (ETC) TOTAL: 8 ATP + 30 ATP 38 ATP
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