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Learning Targets • Explain how cellular respiration converts stored chemical energy in food molecules to energy used by the organism to maintain life. • • Distinguish key differences between aerobic and anaerobic respiration in the use of oxygen and energy production. Cellular Respiration Respiration • Respiration – the biochemical process that makes ATP from glucose • Occurs in both autotrophs and heterotrophs. AND Respiration • There are two types of respiration, AEROBIC and ANAEROBIC. • Aerobic respiration requires OXYGEN to release energy. • The chemical equation for aerobic respiration is: C6H1206 + 6O2 Glucose Oxygen 6H2O + 6CO2 + 36 ATP Water Carbon Dioxide Energy Respiration • Anaerobic respiration DOES NOT REQUIRE OXYGEN. (Also called FERMENTATION) • Both aerobic and anaerobic respiration begin with the same process, glycolysis. Glycolysis • Occurs in CYTOPLASM • Means “split the sugar,” Glycolysis 2 Glucose Glycolysis Mitochondria • Double membrane – outer membrane – inner membrane • highly folded cristae • enzymes & transport proteins Aerobic Respiration • Occurs in the MITOCHONDRIA • • Krebs Cycle: Occurs in Mitochondrial Matrix. Produces large quantity of electron carriers that will be used in the electron transport chain to power it. Electron Transport Chain: Occurs in cristae (folded inner membrane) of mitochondria. Produces water and 36 ATP. Aerobic Respiration Electron Transport Chain: Aerobic Respiration • The end product of aerobic respiration is the production of 36 ATP MOLECULES and WATER. Aerobic Respiration Glucose Glucose 2 36 Glycolysis Glycolysis Krebs cycle Electron transport Anaerobic Respiration • Occurs in the CYTOPLASM. • Occurs in the absence of oxygen Anaerobic Respiration • Lactic acid Fermentation- Lactic acid and CO2 are produced. – Lactic acid can build up in muscles when they run out of oxygen and causes muscle soreness • Alcoholic fermentation- Ethanol and CO2 are produced. – Process used to make wine, beer, cheese, and bread • Both processes result in the production of only 2 ATP MOLECULES. Factors Affecting Respiration: • ATP concentration - the more ATP molecules available, the slower the rate of respiration. Anaerobic Respiration 2 36 Glucose Glycolysis Krebs cycle Fermentation (without oxygen) Electron transport Alcohol or lactic acid
