chapter 9: cellular respiration ap biology. oxidation and reduction e is gained by the transfer of e...
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Chapter 9: Cellular Respiration
AP Biology
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Oxidation and Reduction
• E is gained by the transfer of e’s• The relocation of e-’s releases the
stored E and the E ultimately makes ATP
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Redox Reactions
• Oxidation: the loss of e-’s from a substance
• Reduction: the gain of e-’s by a substance
• E must be added to pull e-’s from an atom
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Redox Reactions
• A redox reaction that relocates an e- from a less electronegative atom to a more electronegative atom loses potential E
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Hydrogen
• In most redox reactions, it is not only the e- that is transferred but in most biological reactions the whole hydrogen atom is transferred
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Carbohydrates and Fats
• Contain high levels of hydrogen and their electrons
• There is a barrier that keeps sugar from combining immediately with O2
• This barrier is reduced inside the body with the help of enzymes
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Cellular Respiration
C6H12O6 + 6O2 6H2O + 6CO2 + E
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Introduction
• Cellular Respiration is a catabolic pathway.–Does not directly perform
cellular work???
–Redox reactions!!
–Importance of Hydrogen??
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Introduction
• Does glucose react instantaneously? Spontaneously?
• Activation barrier/ Enzymes(lots of them)– Lowers activation energy
– Allows breakdown to proceed spontaneously
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Cellular Respiration• What is a potential problem with the
breakdown of glucose as a spontaneous reaction??
– Hint: TNT, Gasoline• How does the cell prevent this problem?
– Does not release energy all at once– Multi- step process catalyzed by specific enzymes
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Cellular Respiration• With each step, electrons are released with a
proton (hydrogen atom)
• Each hydrogen is transferred to a coenzyme (NAD+)
• And eventually to Oxygen
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Nicotinamide Adenine Dinucleotide• NAD+
• Derivative of the vitamin niacin
• Coenzyme– Oxidizing agent
• Will be reduced to NADH– (2 electrons and Hydrogen)– Dehydrogenase-removes two hydrogen from
substrate
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Nicotinamide Adenine Dinucleotide
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Glycolysis: • Occurs in the cytoplasm
• Net gain of 2 ATP and 2 NADH
• Start: 6 carbon glucose
• End: 2- 3 carbon pyruvate molecules
• Ten steps- two phases– Energy investment phase– Energy payoff phase
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Glycolysis: • Energy investment stage:
• Glucose phosphorylated by ATP(2)– Unstable– Splits
• Each 3 carbon molecule is phosphorylated again– Inorganic phosphate comes from cytosol not ATP
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Glycolysis: • Energy Payoff Phase:
• Each 3 carbon molecule reduces NAD+ to NADH
• Each 3 carbon molecule gives up its 2 phosphates to ADP to form 4 ATP.
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Glycolysis: Summary
• Reactants: – Glucose
– NAD+
– ATP (2)
– ADP (2)
• Products: • Pyruvate (2)• NADH (2)• ATP (4)
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Mitochondria Structure
• Double membrane organelle– Outer membrane: very permeable – Inner membrane:
• selectively permeable– pyruvate (yes)
– NADH (no)
• contains electron transport proteins
• Cristae- inner foldings– Increase surface area
• similar to plasma membrane of bacteria
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Mitochondria Structure
• Double membrane organelle– Matrix: inside inner membrane
• Protein rich solution: enzymes
• In between cristae
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– Krebs Cycle• Tricarboxylic Acid Cycle
– Matrix– Reactants:
• 2 molecules of pyruvate
• Each makes a circuit through the cycle– One glucose = two pyruvate = two turns of the cycle
– Products: • For each pyruvate
– 3 NAD+ 3 NADH
– 1 FAD+ 1 FADH2
– 1 ADP + P 1 ATP
Citric Acid Cycle:
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Oxidation of Pyruvate:
• Pyruvate must first be converted to Acetyl CoA – Pyruvate dehydrogenase– Each pyruvate molecule loses one Carbon and two Oxygen-
Acetyl group
– Acetyl group attaches to CoA molecule forming acetyl CoA
– Reduction of NAD+ molecule to NADH• 2 total- one for each pyruvate
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Cyclic Nature of Citric Acid Cycle
• CoA transfers 2 carbon molecule– Transfers 2 carbon acetyl group to 4 carbon oxaloacetate– Results = 6 carbon citrate– Start of cycle
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Cyclic Nature of Citric Acid Cycle
• Citrate- goes through a series of oxidation reactions– Priming/ rearrangement stage
• Prepares the 6 carbon citrate for energy extraction
– Oxidized by NAD+ – Carbon dioxide
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Cyclic Nature of Citric Acid Cycle
• Citrate also loses 2 carbon atoms (CO2) eventually returning to 4 carbon oxaloacetate again – Energy Extraction/ Acetyl group stage– More reduction of NAD+– Reduction of FAD– ATP produced- substrate level phosphorylation– Cycle starts over again
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Important Features
• NAD+ and FAD+ are reduced by the oxidation of an organic compound (transfer of H atom).
• 1 ATP molecule is formed by substrate level phosphorylation during each turn of cycle (net per glucose = 2 ATP)
• For each turn of the cycle, 3 Carbon atoms are lost to Carbon Dioxide– All 6 carbons exit the system by the end of the Kreb
cycle.
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Oxidative Phosphorylation
• Electron transport is coupled with ATP synthesis via chemiosmosis.
• Over all drop in ΔG as electrons are transferred from NADH to Oxygen– Releases energy in manageable amounts
• Create proton motive force – Drives the production of ATP
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Electron Transport Chain
• Inner Mitochondrial membrane
• Series (I - IV) of protein complexes– Complexes one – three have increasing affinity
for electrons
• Prosthetic groups: non-protein components essential to certain enzymes
• Redox (downhill) reactions
• Does not directly make ATP- eases the fall
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Prosthetic Groups:
• FMN- flavin mono nucleotide-– Gets reduced by NADH at complex I
• CoQ- Ubiquinone- – very hydrophobic– very mobile– Carries between complex I/II and complex III
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Prosthetic Groups:
• Iron/Sulfur cluster- – gets reduced by FADH2 at complex II– Transfer electrons between cytochromes
• Cytochromes- transfers electrons to oxygen– Heme- Fe atom- carries electrons
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Chemiosmosis
• The formation of a hydrogen ion gradient drives the cellular process of ATP synthesis– Proton motive force
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Chemiosmosis
• Final protein complex = F0F1 protein
– Catalyzed by ATP synthase– Oxidative phosphorylation: synthesis of ATP
from ADP and Pi
– 3 to 4 H+ to generate 1 ATP
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Animation
• http://www.science.smith.edu/departments/Biology/Bio231/etc.html
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Fermentation If a cell runs out of O2, all the e- carriers
are stuck in reduced form, halting system
• Pyruvate produced by glycolysis acts as alternative acceptor of H from NADH, keeping glycolysis going to allow small ATP production
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Alcoholic Fermentation
• Yeasts break down sugar into pyruvate.• Each pyruvate is dismantled into a
molecule of CO2 and a 2C compound acetaldehyde
• Acetaldehyde is reduced by accepting 2H's from NADH and H+ forming 2C alcohol ethanol (ethyl alcohol)
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Lactic Acid Fermentation
• Occurs during strenuous exercise
• Pyruvate from glycolysis is reduced by accepting hydrogens from NADH and H+
• Pyruvate converted into 3C compound, lactate
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Metabolic Energy Systesm:
• Phosphagen pathway- high powered activities that last around 10 secs
• Glycolytic pathway- moderately powered activities that last two minutes
• Oxidative pathway- low powered pathways that last more than several minutes
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Respiration W/O O2
Anaerobic respiration: uses nitrate or sulfate as final electron acceptor
Fermentation: the anaerobic breakdown of food molecules in which the final e- acceptor is an organic molecule