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18 Cards in this Set
- Front
- Back
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Anaerobic reaction smell |
Sulfur bacterial smell |
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Glycolysis products |
4 molecules of ATP(2 are recycled for further glycolisis) 2 molocules of NADH 2 molecules of pyruvate |
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Aerobic reaction in presence of |
Takes place in presence of oxygen |
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Glycolysis |
Breaks glucose to 4 atp (2 are recycled into further ) 2 molocules NAHD a coenzyme And 2 pyruvate molecules |
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Aerobic cellular respiration |
Two pyruvates from glycolisis are broken down to 2 molecules of acetyl coenzyme A and 2 molecules of CO2 in mitochondria NAD+ acts to remove electrons from pyruvate and forms two NADH |
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Citric acid cycle or creb cycle products |
2 atp 4 molecules of CO2 6 molecules of NADH 2 molecules of FADH2 |
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Alcoholic fermentation products |
Ethyl alcohol C2H5OH CO2 2 ATP (net of 4) |
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Lactic acid fermentation products |
Lactic acid C3H5O3 2 molecules of ATP (4 net) |
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Reaction for aerobic cellular respiration (basic formula) |
C6H12O6 + 6O2 = 6 CO2 + 6H20 |
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ATP broken down |
ADP |
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Electron transport chain products |
H2O 32 ATP(36 total atp) CO2 |
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Yeast experiment results |
No reaction in pure water or starch Respiration took place in glucose |
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Aerobic respiration in () Anaerobic respiration in () |
Mitochondria and cytosol |
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Glycolysis takes place in |
Cytoplasm Occurs in both fermentation and aerobic cellular respiration |
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Glucose source |
Photosynthesis |
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Final electron acceptor of electron transport chain |
Is oxygen and this results in water |
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NAD+ |
Facilitates removal of electrons from pyruvate and forms 2 molocules of NADH |
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CoA acytl coenzyme a |
convey the carbon atoms within the acetyl group to the citric acid cycle (Krebs cycle) |
