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Figure 6.0-1 CELLULAR RESPIRATION: AEROBIC HARVESTING OF ENERGY © 2015 Pearson Education, Inc. 6.1 Photosynthesis and cellular respiration provide energy for life • In cellular respiration, • With the help of oxygen, sugar (created in photosynthesis) is broken down to carbon dioxide and water and • the cell captures some of the released energy to make ATP. • Cellular respiration takes place in the mitochondria of eukaryotic cells. © 2015 Pearson Education, Inc. Figure 6.1 Sunlight energy ECOSYSTEM CO2 + H2O Photosynthesis in chloroplasts Organic molecules Cellular respiration in mitochondria ATP powers most cellular work ATP Heat energy © 2015 Pearson Education, Inc. + O2 6.2 Breathing supplies O2 for use in cellular respiration and removes CO2 • Respiration, as it relates to breathing, and cellular respiration are not the same. • Cellular respiration is the aerobic (oxygenrequiring) harvesting of energy from food molecules by cells. © 2015 Pearson Education, Inc. 6.3 Cellular respiration banks energy in ATP molecules • Cellular respiration is an exergonic (energyreleasing) process that transfers energy from the bonds in glucose to form ATP. • Cellular respiration • can produce up to 32 ATP molecules for each glucose molecule © 2015 Pearson Education, Inc. 6.5 Cellular respiration is a redox reaction • The movement of electrons from one molecule to another is an oxidation-reduction reaction (redox). – the loss of electrons from one substance is oxidation – the addition of electrons to another substance is reduction • Cellular respiration uses redox reactions to harvest the chemical energy stored in a glucose molecule. – In cellular respiration the electron movements are represented by the movement of hydrogens – This is accomplished by oxidizing the sugar to CO2 and reducing O2 to H2O. © 2015 Pearson Education, Inc. STAGES OF CELLULAR RESPIRATION 6.6 Overview: Cellular respiration occurs in three main stages • Cellular respiration consists of a sequence of steps that can be divided into three stages. • Stage 1: Glycolysis • Stage 2: Pyruvate oxidation and the citric acid cycle • Stage 3: Oxidative phosphorylation © 2015 Pearson Education, Inc. 6.6 Overview: Cellular respiration occurs in three main stages • Stage 1: Glycolysis • occurs in the cytosol, • begins cellular respiration, and • breaks down glucose into two molecules of a three-carbon compound called pyruvate. • there is a net gain of 2 ATP and 2 NADH electron carriers. © 2015 Pearson Education, Inc. 6.7 Glycolysis harvests chemical energy by oxidizing glucose to pyruvate • ATP is formed in glycolysis by substrate-level phosphorylation during which • an enzyme transfers a phosphate group from a substrate molecule to ADP and ATP is formed. • Stage 2: Pyruvate oxidation and the citric acid cycle, also called the Krebs cycle • • • • takes place in mitochondria turns pyruvate to a two-carbon compound (Acetyl CoA) Acetyl CoA then enters the Citric Acid Cycle supplies stage 3 with electrons. • generates 2 ATP, 6 NADH, and 2 FADH2. • Both processes release CO2 • Stage 3: Oxidative phosphorylation • Electrons from NADH and FADH2 are passed down the electron transport chain to O2, which picks up H+ to form water. • As the ETC shuttles electrons, it pumps H+ across the membrane, and produces a concentration gradient of H+ across the membrane. • In chemiosmosis, the potential energy of this concentration gradient is used to make ATP. • Releases H20 © 2015 Pearson Education, Inc. INTERMEMBRANE SPACE The movement of H+ ions power a protein turbine, ATP synthase, that converts ADP and a phosphate group into about 28 ATP. H+ Rotor Internal rod Catalytic knob ADP + P MITOCHONDRIAL MATRIX © 2015 Pearson Education, Inc. ATP Figure 6.12 CYTOSOL MITOCHONDRION 2 NADH Glycolysis 2 Pyruvate Glucose 6 NADH + 2 FADH2 2 NADH Pyruvate Oxidation 2 Acetyl CoA Oxidative Phosphorylation (electron transport and chemiosmosis) Citric Acid Cycle O2 Maximum per glucose: H2O +2 ATP by substrate-level phosphorylation Video Animation © 2015 Pearson Education, Inc. CO2 +2 ATP by substrate-level phosphorylation + about 28 ATP About 32 ATP by oxidative phosphorylation FERMENTATION: ANAEROBIC HARVESTING OF ENERGY © 2015 Pearson Education, Inc. 6.13 Fermentation enables cells to produce ATP without oxygen • Fermentation is a way of harvesting chemical energy that does not require oxygen (Anaerobic). • Fermentation • takes place in the cytosol, • uses glycolysis, • produces two ATP molecules per glucose © 2015 Pearson Education, Inc. What if oxygen is missing? O2 • No oxygen available = can’t complete aerobic respiration • Anaerobic respiration • also known as fermentation • no oxygen or no mitochondria (bacteria) • can only make very little ATP • large animals cannot survive yeast bacteria Anaerobic Respiration • Two types of fermentation 1. alcohol fermentation • yeast • glucose ATP + CO2+ alcohol • make beer, wine, bread 2. lactic acid fermentation • bacteria, animals • glucose ATP + lactic acid • bacteria makes yogurt • animals feel muscle fatigue O2 6.13 Fermentation enables cells to produce ATP without oxygen • The dairy industry uses lactic acid fermentation by bacteria to make cheese and yogurt. • Other types of microbial fermentation turn soybeans into soy sauce and cabbage into sauerkraut. • Cellular Respiration and Fermentation CrashCourse © 2015 Pearson Education, Inc.