Lactic Acid Pathway All Creatine Phosphate has been depleted. ATP now is re synthesised by Glycogen Carbohydrate is eaten in the form of sugar or starch.

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Presentation transcript:

Lactic Acid Pathway All Creatine Phosphate has been depleted. ATP now is re synthesised by Glycogen Carbohydrate is eaten in the form of sugar or starch and is stored in muscles and liver as glycogen.

Lactic Acid Pathway Before we can use glycogen for energy Glycogen needs to be converted to Glucose-6- Phosphate This uses up 1 molecule of ATP The breaking down of glucose if called gylcolosis. As no oxygen is used in these first stages- Anaerobic Glycolosis.

Lactic Acid Pathway Now we have Glucose-6-Phosphate we are ready to go! Now glycotic enzymes go to work on breaking down the molecule again (12 reactions) in the sarcoplasm of the cell. Phosphofructo kinase PFK Glycogen phosphorylate GK

Lactic Acid Pathway Glucose-6-Phosphate is degraded to Pyuvic Acid In the absence of oxygen is converted to lactic Acid by enzyme Lactate Dehydrogenase (LDH)

Lactic Acid Pathway The whole process frees sufficient energy to re synthesis 3 molecules of ATP However, this process also uses up 1 molecule So net gain 2 ATP C6 H12 O6 2C3 H6 O3 + Energy Energy + 2P + 2ADP 2ATP

Features of the System Only frees a small amount of the energy from the glycogen molecule (5%) Lactic acid produced inhibits further glycogen breakdown as it restricts the glycotic enzyme activity LA levels can rise 1mmol/kg at rest to 25mmol/kg during intense exercise. Releases energy fairly quickly i.e. 400m

Features of the System Used between 10 seconds and 3 mins Best for activities at 1 minute Also at the end of aerobic events for a sprint finish The remaining 95% of the molecule is used in the Aerobic system….