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5.2: Cellular Respiration (Aerobic Respiration). Plants — make food (sugar) through photosynthesis Animals and other organisms — get food by eating plants and animals. Energy Review. Cellular respiration — glucose and food are broken down to make energy (ATP) in ALL organisms
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Plants—make food (sugar) through photosynthesis • Animals and other organisms—get food by eating plants and animals Energy Review
Cellular respiration— glucose and food are broken down to make energy (ATP) in ALL organisms • Occurs in the mitochondria of eukaryotes • Occurs in the cytoplasm of prokaryotes Cellular Respiration
C6H12O6 + O2 CO2 + H2O + energy Products Reactants Cellular Respiration Equation
Aerobic Respiration: breaking down of glucose molecules into smaller pieces in the presence of oxygen to produce ATP Cellular Respiration
THREE STEPS OF AEROBIC RESPIRATION 1. Glycolysis 2. Kreb’s/Citric Acid Cycle 3. Electron Transport Chain (ETC) Cellular Respiration
1. Glycolysis: occurs in cytoplasm; glucose is split in half, forming a pyruvate molecule • 2 ATP released • Electrons released and carried to mitochondria Cellular Respiration
Where does glycolysis take place? • What molecule is used in glycolysis? • What are the products of glycolysis? • What ultimately happens to each of these products? • Write an equation that represents glycolysis Glycolysis quiz
2. Kreb’s/Citric Acid Cycle: occurs in the mitochondria; pyruvate is split into smaller pieces • CO2 gas released (we breathe it out) • 2 ATP released • Electrons released and move to mitochondria Cellular Respiration
Where does the CAC occur? • What molecule is used in the CAC? • What are the products of the CAC? • What happens to each of these products? • Write an equation that represents the CAC Krebs/Citric Acid Cycle Quiz
Electron Transport Chain (ETC): made of proteins in the mitochondrial membrane • Electrons dropped off at proteins • Electrons lose energy as get passed from protein to protein • Energy lost from electrons is used to make ATP • 32 ATP made • Electrons finally passed to OXYGEN to make WATER Cellular Respiration
ETC Proteins Mitchondrial Membrane e- e- e- e- e- e- H2O e- e- O2
TOTAL ENERGY: 36 ATP from 1 glucose Cellular Respiration
What is the ETC? • What happens as the electrons get passed from protein to protein down the ETC? • What happens to the extra energy? • What happens to the electrons at the end of the ETC? ETC quiz CR Animation
Glucose ATP Glycolysis Pyruvate CO2 Electrons Krebs Cycle (CAC) Electrons ATP ETC H2O O2 ATP
Anaerobic Respiration: breaking down glucose molecules into smaller pieces the ABSENCE of oxygen to produce ATP Cellular Respiration
TWO STEPS OF ANAEROBIC RESPIRATION 1. Glycolysis: occurs in cytoplasm; glucose is split in half, forming a pyruvate molecule • 2 ATP released • Electrons released and carried to mitochondria Cellular Respiration
TWO STEPS OF ANAEROBIC RESPIRATION • 2. Fermentation: breaking down pyruvate without oxygen Cellular Respiration
Lactic acid fermentation: pyruvate is broken down to make lactic acid + ATP • 2 ATP released • Lactic acid builds up as in muscle cells & causes burning sensation (muscle cramping) during strenuous exercises C-C-C + H-C-C-+ ATP pyruvate lactic acid energy Cellular Respiration
Alcoholic fermentation: pyruvate is broken down into alcohol, carbon dioxide, and ATP in yeast and bacterial cells • 2 ATP released • Used in making bread and alcohol beer C-C-C C-C-OH + CO2 + ATP Pyruvate alcohol + carbon + energy dioxide Cellular Respiration
Cellular Respiration Digestion Glycolysis Eat Oxygen is present No oxygen is present Aerobic respiration Fermentation (anaerobic respiration) Citric acid cycle In yeast In animals Electron transport chain Alcoholic fermentation Lactic acid fermentation
Cellular Respiration _______ ________ ____________ ____________________ ____________________ __________________ __________ _____________________ __________________ _______ ________ ________________________ ____________________ ____________________
Photosynthesis vs. Respiration food synthesized food broken down requires energy produces energy Chloroplast mitochondria/cytoplasm Only autotrophs Autotrophs and heterotrophs (all living cells)