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  • Glycolysis breaks down Glucose.
  • Today we are going to look at cellular respiration
  • That is a delicious looking steak
  • Magic school train
  • Magical microscope that breaks physics and allows you to see down to particle level and also allows us to watch them
  • One of the 3 carbon molecules is unstable so it has to be converted by another enzyme to G3P
  •  ADP ATP
  • C
  • C
  • C
  • C
  • Pyruvic Acid
  •  ADP ATP
  • C
  • C
  • 2ADP 2ATP
  • 2NAD+ 2NADH
  • C
  • C
  • C
  • Pyruvic Acid
  • C
  • C
  • C
  • 2ADP 2ATP
  • 2NAD+ 2NADH
  • This process occurs in the Mitrocondirial Matrix
  • Pyrubate
  • The students in Mr. Steinback's class are getting anxious about the new science topic
  • CO2
  • NADH NAD+
  • 
  • Coenzyme A
  • Acetyl Coa
  • Krebs Cycle
  • 
  • H+
  • H+
  • H+
  • We start with a six carbon glucose molecule it has to be broken down which happens in glycolysis. The Glucose has to be converted into G3P what we get after investing 2 ATP we get one G3P and an enzyme will convert whats left of the second to make another G3P. and energy is taken to take 4 ATP and 4 NADH and leaves us with Pyruvic Acid.
  • Come on!
  • C6H12O6 + 6O2 --> 6H2O + 6CO2 + ATP
  • Ok now it's time for a pop quiz!
  • In the Krebs Cycle Pyruvic Acid is made into Acetyl CoA this happens because of coenzyme A this process is called Pyruvic Oxidation. Acetyl CoA reacts with Oxyacetylene to make Citric acid. Each cycle makes one ATP 3NADH and one FADH2 this cycle happens twice because two Pyruvic acids are made by Glycolysis. The NADH and FADH2will continue to the electron transport chain 
  • The electron transport chain is the last system the NADH and FADH2 will pump protons into the complexes and use electron energy from protons crossing. Once they get from the inner membrane to the inner membrane space they can only go through ATP synthase,and can not go out the outer membrane and want to because they want to go from high to low concentration by going through to the ATP synthase and that powers it and allows for protons to cross back into the matrix.
  • ADP + P             ATP
  • Back in Mr. Steinback's class
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