Cell Respiration
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Transcript of Cell Respiration
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Cell Respiration
Chapter 5
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Cellular Respiration
• Release of energy in biomolecules (food) and use of that energy to generate ATP
ENERGY (food) + ADP + Pi ATP
• Two methods of breaking down food– Aerobic Respiration: oxygen utilizing– Anaerobic Respiration: no oxygen used
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Aerobic Respiration
• Uses oxygen in breakdown of materials and release of energy– C6H12O6 (glucose) + 6O2 6CO2 + 6H2O + Energy
• Energy is released in small increments via long metabolic pathways – Allows cells to efficiently release and use
energy contained in food molecules
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Aerobic Respiration: Overview
• Glycolysis – glucose pyruvate
• Krebs Cycle– formation of electron carriers and CO2
• Oxidative Phosphorylation– electron carriers used to generate ATP
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Glycolysis
• Occurs in cytoplasm of the cell
• Breakdown of one glucose molecule into two pyruvate molecules
• Yields 2 ATP molecules (net) and 2 NADH molecules
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Glycolysis
Glucose (6C)
2ATP 2ADP
2ADP 2ATP
2ADP 2ATPNAD+ NADH
NAD+ NADH
Pyruvate (3C)
Pyruvate (3C)
NADH = high-energy electron carrier
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Glycolysis
• Glucose pyruvate
• 2 NAD+ + 2H+ + 4e- 2 NADH
• 2 ADP + 2 Pi 2 ATP
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Kreb’s Cycle
• Occurs in the mitochondrial matrix
• Cyclical series of reactions
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Krebs Cycle:Acetyl-CoA Formation
• Pyruvate transported into mitochondrial matrix
• CO2 cleaved off of pyruvate, forming acetate
• Acetate linked to Coenzyme A (CoA) to form acetyl-CoA
• One NADH formed for each pyruvate
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Krebs Cycle (The Cycle Itself)
• Acetyl-CoA (2C) linked to oxaloacetic acid (4C), to form citric acid (6C)
• Citric acid ultimately converted into oxaloacetic acid + 2CO2
• 1 GTP, 3 NADH and 1 FADH per each acetyl-CoA
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Krebs Cycle
Pyruvate(3C)
NAD+ NADH
Citrate(6C)
CO2
Acetyl-CoA(2C)
Oxaloacetate(4C)
CO2
CO2
3NAD+ 3NADH
FAD+ FADH2
GDP GTP
FADH2 – high energy electron carrierGTP – similar to ATP, can be converted to ATP
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Krebs Cycle
• 3 CO2, 1 GTP, 4 NADH and 1 FADH2 produced for each pyruvate molecule.
• Total: 6CO2, 2 GTP, 8 NADH, 2FADH2
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Oxidative Phosphorylation
• Occurs across the inner mitochondrial membrane
• Electrons from NADH and FADH2 are transported along an electron transport chain
• Energy released used to produce ATP
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Oxidative Phosphorylation• H+ pumped from inside the
membrane to the outside – forms [H+] gradient (more outside
than inside)
• H+ flows back in through ATP synthase– generates ATP
• Electrons and H+ received by O2
– forms H2O
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Overall Reaction for Aerobic Respiration
C6H12O6 + 6O2 6CO2 + 6H2O
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How Much ATP is Produced Per Glucose Molecule?
Glycolysis 2 ATP
Krebs Cycle (2 GTP) 2 ATP
Oxidative Phosphorylation 26 ATP
TOTAL 30 ATP
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Triglyceride Catabolism
• Fatty acids are converted into acetyl-CoA• Large amounts of ATP produced per fatty acid
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Amino Acid Catabolism
Different amino acids can be converted into variousKrebs Cycle intermediates
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Anaerobic Respiration
• Produce ATP in the absence of O2
• Used regularly by skeletal muscle fibers and RBCs
• Two steps:– Glycolysis - produce ATP
– Lactate Formation – regenerate NAD+
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Glycolysis in Anaerobiosis
• Glucose Pyruvate
• Net 2 ATP produced
• NAD+ NADH
• Need NAD+ to drive glycolysis!
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Lactate Formation
• Pyruvate Lactate
• NADH NAD+
• Glycolysis can continue
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How Much ATP is Produced Per Glucose Molecule?
Glycolysis 2 ATP
TOTAL 2 ATP
• Most of the energy from glucose is still present in the lactate
• Lactate accumulation leads to pH