Aerobic System
- Created by: NatFrench
- Created on: 21-11-16 10:20
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- Aerobic System
- Aerobic Glycolysis
- Muscle/liver glycogen
- Glycogen phosphorylase
- Glucose
- Pyruvic acid
- Coenzyme A
- Acetyle CoA
- o2 is present
- Coenzyme A
- PFK
- Energy - 2 ATP
- Pyruvic acid
- Muscle sarcoplasm
- Glycogen is converted into glucose by glycogen phosphraylase
- Glucose is converted into pyruvic acid by PFK
- This provides enough energy to resynthesise 2 ATP
- Pyruvic acid combines with Coenzyme A to form Acetyle CoA
- This provides enough energy to resynthesise 2 ATP
- Glucose is converted into pyruvic acid by PFK
- Muscle/liver glycogen
- Kreb's Cycle
- Matrix of Mitochondria
- Acetyle CoA
- Oxaloacetic acid
- Citric Acid
- Kreb's Cycle
- Co2 us produced and removed
- Hydrogen atoms are produced (oxidation)
- Regeneration of oxaloacetic acid
- 2 ATP
- Kreb's Cycle
- Citric Acid
- Oxaloacetic acid
- Acetyle CoA combines with oxaloacetic acid to form citric acid
- A series of further reactions take place within the Kreb's cycle in the matrix of mitochondria
- Co2 is produced and removed
- Hydrogen (H) atoms are removed (oxidation)
- This produces enough to resynthesis 2 ATP
- Oxaloacetic acid is regenerated
- Co2 is produced and removed
- A series of further reactions take place within the Kreb's cycle in the matrix of mitochondria
- Electron Transport Chain
- Cristae of Mitochondria
- H
- NAD & FAD
- NADH & FADH
- H +
- H + ETC
- H2O
- H + ETC
- E -
- e- + ETC
- Energy for 34 ATP
- e- + ETC
- H +
- NADH & FADH
- NAD & FAD
- The hydrogen from the Kreb cycle combines with coenzymes NAD & FAD to form NADH & FADH
- NADH & FADH are carried into the ETC
- Hydrogen is split into H+ and E-
- The electron is e- passes down the ETC
- This provides enough energy to resynthesise 34 ATP
- Hydrogen (H+) combines with o2 =H2O
- Hydrogen is split into H+ and E-
- NADH & FADH are carried into the ETC
- Aerobic Glycolysis
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