Chapter 9: Overview of Energy
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Transcript of Chapter 9: Overview of Energy
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Chapter 9: Overview of Energy
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Respiration vs Breathing
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Photosynthesis: (Net Reaction)
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Respiration:
(Net Reaction) AEROBIC CONDITIONS (O2 needed)
• In both reactions, there is a HYDROGEN and CARBON pathwaya. Photosynthesis-- Joins the hydrogen and oxygen pathway to
form glucoseb. Respiration-- Separates these 2 pathways forming H2O and CO2
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Chapter 9: Cell Respiration Notes
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Aerobic Cell Respiration• Complete oxidation of 1 glucose molecule• Includes 4 major sets of reactions
NOTE: Parts 2, 3, 4 occur in mitochondria of aerobic cells only Part 4 occurs simultaneously with Parts
1, 2, 3 in aerobic cells
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Aerobic Cell Respiration
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• Review of Electron Carriers
a. NAD + 2H + 2e- NADH + H+
b. FAD + 2H + 2e- FADH2
Bring e- to ETC of inner mitochodrial membrane
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Fermentation
• Aka Anaerobic Respiration
• Catabolic process that partially breaks down sugars without the use of oxygen
• Function of fermentation is to make ATP
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Alcoholic Fermentation
PGAL
PGAL
Pyruvicacid
Pyruvic acid
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Fermentation cont.
Fermentation Via:
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Alcoholic FermentationGlycolysis followed by: pyruvic acid + NADH 2 alcohol + 2 CO2 + NAD+
Pyruvic Acids
(Alcohol)
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Lactic Acid FermentationGlycolysis followed by: pyruvic acid + NADH 2 lactic acid + NAD+
(Lactic Acid)
Pyruvic Acids
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Glycolysis
• Splitting of 1 glucose molecule into 2 molecules of pyruvic acid
• Can occur aerobically or anaerobically
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Glucose
PGAL
Pyruvic Acid
ATP made by process called SUBSTRATE- LEVEL PHOSPHORYLATION: transfer of phosphate group from a substrate (reactant) molecule to ADP ATP
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Glycolysis
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After Glycolysis
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Respiration (4 Major Reactions)
1) Glycolysis (in cytoplasm)• Splitting of 1 molecule of glucose into 2 molecules
of pyruvic acid• Can occur in aerobic or anaerobic conditions
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Glucose
PGAL
Pyruvic Acid
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Respiration (4 Major Reactions) cont.
2) Pyruvic Acid Oxidation: Aerobic (in matrix)
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The Oxidation of Pyruvate to form Acetyl CoA for Entry Into the Krebs Cycle
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Kreb’s Cycle Pyruvic Acid
Oxidation
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Respiration (4 Major Reactions) cont.
3) Kreb’s Cycle/ Citric Aid Cycle (in matrix)
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Kreb’s Cycle Pyruvic Acid
Oxidation
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Citric AcidOxaloacetic Acid
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Citric Acid Cycle (x2)
ETC
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Respiration (4 Major Reactions) cont.
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Oxidative Phosphorylation
High [H+]Low pH
Low [H+]High pH
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Chapter 9: Methods of ATP Synthesis Notes
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3 Methods of ATP Synthesis
1) Photosynthetic Phosphorylation• Process of making ATP (~P) with light energy
using electrons from hydrogen and chlorophyll• Occurs during PSII• On thylakoid membranes- in grana within
chloroplast• Need enzyme (ATP synthetase & proton
pumps)- chemiosmosis• Has ETC-- Electron Transport Chain-- PSII and
PSI
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Photosynthetic Phosphorylation
4e- 4e- 4e-
4H+
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Photosynthetic Phosphorylation
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3 Methods of ATP Synthesis cont.
2) Substrate Phosphorylation• Process of making ATP by rearrangement of
bonds of substrates during glycolysis or Krebs Cycle (No energy added!)a. Glycolysis (in cytoplasm)o Occurs in aerobic and anaerobic
conditionso No enzyme (ATP synthetase & proton
pump)o No ETC-- no H2O made
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a. Glycolysis (in cytoplasm) cont.
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3 Methods of ATP Synthesis cont.
b. Krebs Cycle (in mitochondrion)o Occurs only under aerobic conditionso No enzyme (ATP synthetase & proton pump)o No ETC-- no H2O made
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3 Methods of ATP Synthesis cont.
3) Oxidative Phosphorylation• Process of making ATP (~) from energy
released from hydrogen electrons (e-) as they are carried to O2 by coenzymes via the ETC or respiratory chain
• Occurs only under aerobic conditions• Occurs only inside mitochondria (on
cristae membranes)
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Oxidative Phosphorylation cont.
• Needs enzyme (ATP synthetase + proton pump + ATP transport protein)
• Needs ETC or respiratory chain• Final electron/ hydrogen acceptor is oxygen• H2O is made
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Oxidative Phosphorylation
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Oxidative Phosphorylation
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Conversions:
a. NADH (produced in the cytoplasm) produces 2 ATP by the ETC
b. NADH (produced in the mitochondria) produces 3 ATP by the ETC
c. FADH2 (adds its electrons to the ETC at a lower level than NADH) so it produces 2 ATP
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Net Energy Production from Aerobic Respiration
1. Glycolysis: 2 ATP 2. Krebs Cycle: 2 ATP 3. Electron Transport Phosphorylation: 32 ATP
a. Glycolysis: net gain/ 2 NADH (x 2) = 4 ATPb. Pyruvate Acetyl CoA: 2 NADH (x 3) = 6 ATPc. Krebs Cycle: 6 NADH (x 3) = 18 ATP
2 FADH2 (x 2) = 4 ATP
GRAND TOTAL: 36 ATP!!!