Organisms capture and store free energy for use in ... · Organisms capture and store free energy...
Transcript of Organisms capture and store free energy for use in ... · Organisms capture and store free energy...
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CHEMOHETEROTROPHIC NUTRITION-AEROBIC CELLULAR
RESPIRATION
Organisms capture and store free energy for use in biological processes. (Ek2.A.2)
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Aerobic Cellular MachineryCells that carry out Aerobic Respiration need mitochondria or similar membrane compartments.
Aerobic Respiration is a 2-part process: The Citric Acid Cycle, followed by Oxidative Phosphorylation
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Redox ReactionReduction: Addition of Electrons (reducing the charge with negative electrons)
Oxidation: Loss of Electrons
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But First…Pyruvate is converted into a molecule of acetyl-CoA.
This process produces 1 NADH per pyruvate, and also releases one of pyruvate’s carbons as a molecule of CO2
CYTOSOLPyruvate(from glycolysis,2 molecules per glucose)
CO2
CoANAD
NADH
MITOCHONDRION CoA
Acetyl CoA H
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Citric Acid Cycle: OverviewOccurs: In the matrix of the mitochondria.
Uses: A molecule of Acetyl-CoA (2 Carbon), 3 NAD+,
1 FAD, and 1 ADP
Produces: 2 CO2, 3 NADH, 1 FADH2, 1 ATP
Note: This happens twice per every 1 glucose.
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Though it doesn’t use oxygen, the citric acid cycle stores more of the energy from glucose in electron shuttles (NADH, FADH2). These will be used in the next step (Oxidative Phosphorylation)
Citric Acid Cycle: OverviewCoA
Citric
acid
cycle
FADH2
FAD
ADP P
ATP
NADH
3 NAD
3
3 H
2
CoA
Acetyl CoA
CO2
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The remaining 4 carbons from the original glucose will be released as CO2during this process.
Citric Acid Cycle: Overview
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Mitochondria are adapted to separate the citric acid cycle from oxidative phosphorylation.
The citric acid cycle occurs in the mitochondrial matrix.
Oxidative Phosphorylation occurs at the inner membrane.
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Oxidative Phosphorylation: Overview
Occurs: At the inner membrane of the mitochondria
Uses: Oxygen, and all NADH and FADH2 produced in glycolysis (2 NADH), acetyl-CoA conversion (2 NADH per glucose), and the citric acid cycle (6 NADH and 2 FADH2 per glucose)
Produces: Water, NAD+, FAD, and >30 ATP
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Oxidative PhosphorylationWhat’s oxidized: NADH and FADH2
What’s produced: ATP and Water
How?
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ChemiosmosisSimilar to the light reactions.
Coupling of the ETC and ATP Synthase
The electrons move through an electron transport chain. The energy released is used to pump H+
from the matrix into the inter-membrane space
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Inner Membrane Space
Matrix
Cristea
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Cytochrome C Oxidase1 member of the mitochondrial ETC
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The Effect of Cyanide
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The only way for H+ to diffuse back into the matrix is through ATP Synthase.
ATP Synthase
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Where’s Water?Water is produced when electrons reach the end of the Electron Transport Chain.
They combine with oxygen, and water is produced.
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Why >30 ATP?We can’t give an exact number because ATP synthesis and oxidation of electron carriers are not directly coupled.
~ 3 ATP per NADH, ~2 ATP per FADH2
Certainly MUCH MORE ATP than in anaerobic cellular respiration.
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Other Metabolites
All biological molecules are able to be metabolized through respiration pathways.
They are either converted in to glucose, or enter the process “downstream” of glycolysis, depending on the molecule.