Glycolysis

Description

Biochemistry Mind Map on Glycolysis, created by Daniel Elandix G on 10/06/2013.
Daniel Elandix G
Mind Map by Daniel Elandix G, updated more than 1 year ago
Daniel Elandix G
Created by Daniel Elandix G over 11 years ago
273
2

Resource summary

Glycolysis

Annotations:

  • Glucose Degradation Comes in 2 phases, Preparation Phase and Payoff Phase Provides 5% of the total energy Yield of the human body.
  1. Glucose

    Annotations:

    • C6H12O6
    1. Glucose-6-phosphate (G6P)

      Annotations:

      • ATP turns to ADP Catalysed by Hexokinase
      1. Fructose-6-Phosphate (F6P)

        Annotations:

        • Phosphoglucose Isomerase, changes/permutate the structure. Note that this process is reversible.
        1. Fructose-1,6-bisphosphate (F1,6bisP)

          Annotations:

          • Phosphofructokinase (Rate limiting Step) Utilize one ATP to ADP
          1. Intermediate

            Annotations:

            • Adolase will break the fructose 1,6-bisphosphate into 2 possible isomers
            1. Dihydroxyacetone phosphate

              Annotations:

              • Formed by Triose Phosphate
              1. Glyceraldehyde-3-phosphate (GAP)

                Annotations:

                • Formed by breaking by adolase and using triosephosphate isomerase of dihydroxyacetone phosphate End of Preparation Phase
                1. Pay off Phase Start

                  Annotations:

                  • From here on, it is the pay off phase.
                  1. 1,3- Biphosphoglycerate

                    Annotations:

                    • Oxidation of GAP to 1,3-Bisphosphoglycerate. Utilize one NAD+ to NADH and H+ Needs Glyceraldehyde-3-phosphate dehydrogenase This process is reversible.
                    1. 3-phosphoglycerate

                      Annotations:

                      • Uses phosphoglycerate Kinase with Mg2+ One Unit of ATP formed form 1 unit of ADP. Process is reversible
                      1. 2-phosphoglycerate

                        Annotations:

                        • Uses Phosphoglycerate mutase and Mg2+ Process is reversible
                        1. Phosphoenolpyruvate

                          Annotations:

                          • Dehydration. Uses Enolase as a catalyst Process is reversible
                          1. Pyruvate

                            Annotations:

                            • Final Form. ADP turns into ATP Utilize pyruvate kinase with Mg2+ and K+ Process is irreversible.
                            1. Citric Acid Cycle (TCA)
                              1. Lactate (Homolytic Fermentation)
                                1. Ethanol Production (Alcoholic Fermentation)
                                  1. One ATP formed
                              2. One ATP formed
                              3. One NADH produced with 1 H+
                        2. Another ATP used
                      2. 1 ATP used
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