cellular respiration ch. 9. overview respiration has three metabolic stages: glycolysis krebs cycle...
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Cellular Respiration
Ch. 9
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Overview
Respiration has three metabolic stages: Glycolysis Krebs Cycle Electron Transport Phosphorylation
Glycolysis and Krebs Cycle decompose glucose and other organic fuels
90% of ATP is produced in Electron Transport Phosphorylation step
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Glycolysis
Glycolysis means “splitting of sugar”
Glucose (6 carbon sugar) is split into two 3-carbon sugars These smaller sugars are oxidized and rearranged to form
two molecules of pyruvate
Ten total steps in glycolysis First set of steps is “energy investment” Second set of steps is “energy payoff” Net energy gain for every glucose molecule is 2 ATP and 2
NADH
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Some energy is made with “substrate-level phosphorylation”
Transfer of a phosphate from substrate creates ATP
Produces small amount of energy
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Krebs Cycle
Glycolysis only releases a small amount of the energy in glucose
Most of the energy is still stored in the pyruvate
If O2 is present, pyruvate enters mitochondrion where the Krebs Cycle will complete the oxidation of the fuel
First thing the mitochondrion will do is convert the pyruvate into acetyl CoA
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Step 1: Carboxyl group removed (CO2 given off) Step 2: Oxidized to form acetate (loses electrons) Step 3: Coenzyme A attached to the acetate
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FADH2 and NADH created by Krebs Cycle will relay electrons to the electron transport chain
Also a small amount of ATP created by substrate-level phosphorylation (just like glycolysis)
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Electron Transport Phosphorylation
Electrons delivered to transport systems of inner mitochondrial membrane
As electrons move through the system, they set up H+ gradients, which drive ATP production
This is the real “money maker” of ATP production
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ATP synthase is powered by the flow of hydrogen ions
Like active transport in reverse
Can be found in the mitochondrial and chloroplast membranes of eukaryotes
Can also be found in plasma membrane of prokaryotes.
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Fermentation
Anaerobic pathway (does not require O2)
Extension of glycolysis that can generate ATP by substrate-level phosphorylation ONLY as long as there is enough NAD+ to accept electrons
Pyruvate (end product of glycolysis) serves as an electron acceptor for oxidizing NADH back to NAD+ which can then be reused in glycolysis
One example is alcohol fermentation
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