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Organization of the Electron transfer Chain

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... by the oxidation of a mole of NADH is conserved in the ... (? G for oxidation of NADH = 220 kJ/mole) For each FADH2 oxidized - 6 H are transferred ... – PowerPoint PPT presentation

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Title: Organization of the Electron transfer Chain


1
Organization of the Electron transfer Chain
  • The electron carriers are organized in membranes
    as multienzyme complexes
  • There are four distinct membrane-embedded
    supramolecular complexes
  • Each catalyzes electron transfer through a
    portion of the chain
  • Q and Cyt c serve as mobile carriers that shuttle
    electrons between the complexes

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  • Complex I and II do NOT operate in series
  • They both accomplish the same thing Transfer e-
    from NADH or succinate to Q

6
Specific inhibitors of electron transport act at
specific points
7
  • As electrons are transferred along the
    respiratory chain there is a decline in
    Free-Energy
  • There are 3 major free energy jumps at complexes
    I, III and IV
  • These are the sites at which ATP is synthesized

8
How is the free energy released from the
oxidation of NADH harnessed to yield ATP?
  • The energy released is used to eject protons from
    the mitochondrial matrix to the inter-membrane
    space
  • At
  • (i) Complex I
  • (ii) Complex III
  • (iii) Complex IV

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  • Therefore, the energy of electron transfer is
    used to power a proton pump
  • This produce a proton gradient
  • The mitochondrial matrix becomes appreciably more
    alkaline than the cytoplasm.

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  • A proton gradient is an intermediary form of
    energy
  • It takes energy to produce it and its dissipation
    would result in the release of free energy

13
  • Intermediary form of energy for 2 reasons
  • Chemical concentration gradient
  • It costs energy to move against a concentration
    gradient
  • Free energy is released when a chemical move
    down its concentration gradient

14
  • (ii) Electrical gradient
  • When protons are ejected without any accompanying
    anions an electrical imbalance is created
  • the inside contains more negative charges than
    the outside
  • this is a membrane potential (difference in
    electrical potential across the membrane)

15
  • It costs energy to pump a positive charge out of
    the mitochondria when there is a ribbon of
    negative charges inside the membrane
  • Therefore, there is a release of energy when a
    positive charge enters such a mitochondria

Proton Motive Force
16
The free energy change for the creation of an
electrochemical gradient
  • ?G RT ln(C2/C1) ZF ??
  • C2 H in the intermembrane space
  • C1 H in the matrix
  • Z Absolute value of the electrical charge (ie
    1 for H)
  • ?? difference in transmembrane electrical
    potential (volts)
  • Calculated ?G for pumping a proton out at 250C
  • ?G 20 kJ/mol

17
  • For each NADH oxidized
  • 10 H are pumped into the intermembrane space
  • Therefore roughly 200 kJ of the 220 kJ released
    by the oxidation of a mole of NADH is conserved
    in the proton gradient
  • (? G for oxidation of NADH 220 kJ/mole)
  • For each FADH2 oxidized
  • - 6 H are transferred

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Phosphorylation (ATP Synthesis)
ATP Synthase
20
Chemiosmotic Theory
Peter Mitchell (1961)
21
Chemiosmotic Theory
  • Free energy of electron transport is conserved by
    pumping H from the matrix to the IM space
  • This creates an electrochemical H gradient
    across the inner mito. Membrane
  • These H then flow back passively into the matrix
    through a pore associated with ATP Synthase
  • This dissipates the electrochemical potential
    contained in the proton motive force.
  • This energy is harnessed to synthesize ATP
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