11- Glycolysis 2

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    Aliaaaa

    Cards (29)

    • Which steps in the payoff phase are irreversible?
      Step 7 and Step 10
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    • Why do we double up after step 5?
      We are acting on the two molecules of GADP produced
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    • Describe Step 6
      Catalysed by Glyceraldehyde-3-phosphate dehydrogenase, GADP is phosphorylated to 1,3-bisphosphoglycerate by an inorganic phosphate, reducing NAD+ in the process
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    • Describe Step 7
      A phosphate group is transferred to ADP, releasing 3-phosphoglycerate and ATP, catalysed by phoshoglycerate kinase
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    • Describe Step 8
      The phosphate group is moved from C3 to C2 to form 2-phosphoglycerate, catalysed by phosphoglyceromutase
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    • Describe step 9
      Enolase catalyses the transformation of 2-phosphoglycerate to phosphoenolpyruvate. The presence of the double bond makes the molecule more unstable
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    • Describe step 10
      Pyruvate kinase transforms Phosphoenolpyruvate to pyruvate, and the phosphate group is transferred to ADP to form ATP
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    • What is the net gain of glycolysis?
      2 ATP
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    • What are the potential fates of Pyruvate?
      - Complete oxidation to CO2 in the Krebs cycle
      - Conversion to lactate in anaerobic conditions
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    • Describe anaerobic respiration
      In anaerobic conditions, the cell must produce all of its ATP via glycolysis, but in step 6, NAD+ is consumed, so NADH must be re-oxidised to NAD+
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    • What is the conversion of Pyruvate to lactate catalysed by?
      Lactate Dehydrogenase
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    • Give an example of how another substrate might enter the Krebs cycle via glycolysis
      - Glycerol may be converted to Glycerol-3-phosphate then Dihydroxyphosphate and enter glycolysis
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    • What is the gibbs free energy of the conversion of glucose to pyruvate?
      -147kJmol (exergonic)
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    • What is the gibbs free energy of the conversion of ADP to ATP
      +30kJmol (endergonic) (x2 ATP =60)
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    • What is the gibbs free energy for glycolysis as a whole ?
      -87kJmol, still an exergonic reaction despite being coupled to an energy requiring reaction
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    • Which steps of glycolysis are exergonic/favoured reactions?
      - Step 1 (Hydrolysis of ATP)
      - Step 3 (Hydrolysis of ATP)
      - Step 7 (Production of ATP)
      - Step 10 (Production of ATP)
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    • Why are many of the steps of glycolysis easily reversed?

      The free energy change of each individual reaction is not great
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    • What are the 3 regulated irreversible steps?
      - step 1, Hexokinase
      - step 3, phosphofructokinase
      - Step 10 , pyruvate kinase
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    • Which molecules allosterically inhibit PFK?
      ATP, NADH, Citrate, Long-chain fatty acids, H+
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    • Why do these inhibit PFK?
      ATP and NADH are indicative of a high energy state, citrate and fatty acids are indicators of alternate energy sources
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    • Which molecules allosterically activate PFK?
      AMP, Fructose, 2,6-bisphosphate
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    • How does ATP regulate phosphofructokinase?
      It binds at a spec ion regulatory site and lowers the activity
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    • Describe the regulation of Fructose 2,6-bisphosphate
      -Fructose 2,6 bisphosphate is formed as an offshoot step from fructose-6-phosphate
      - It increases the affinity of PFK for F6P and decreases the inhibitory effect of ATP
      - An abundance of F6P leads to more F26BP and this in turn stimulates PFK
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    • What is this known as?
      Feed forward stimulation
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    • What enzyme converts fructose-6-phosphate to fructose-2,6-bisphosphate?
      phosphofructokinase-2, PFK2
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    • Describe the regulation of PFK in the muscle
      - Primary control is ratio of ATP:AMP
      - AMP reverses inhibitory action of ATP
      - Periods of intense exercise lead to lactic acid, the inhibition of PFK by H+ protects the muscle from acid damage
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    • Describe the regulation of PFK in the liver
      - ATP regulation is important
      - low pH is not a regulator as the liver does not produce lactic acid
      - Inhibition by citrate enhances ATP effect
      - F-2,6-BP a key regulator, as F-6-P rises with blood glucose
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    • What is Hexokinase inhibited by?
      Glucose-6-Phosphate
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    • What are the functions of this inhibition?
      - Ensures that if the cell has sufficient G6P, phosphorylation of glucose will decrease
      - Glucose in blood becomes available for glucokinase, which is not inhibited by G6P
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