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Cellular Respiration Electron Transport Chain

Cellular Respiration Electron Transport Chain. Cellular respiration. What’s the point?. The Point is to Make ATP!. ATP. What’s the Point?. ATP accounting so far…. Glycolysis  2 ATP Kreb’s cycle  2 ATP Life takes a lot of energy to run, need to extract more energy than 4 ATP !

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Cellular Respiration Electron Transport Chain

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  1. Cellular Respiration Electron Transport Chain

  2. Cellular respiration

  3. What’s the point? The Point is to Make ATP! ATP

  4. What’s thePoint? ATP accounting so far… • Glycolysis 2ATP • Kreb’s cycle 2ATP • Life takes a lot of energy to run, need to extract more energy than 4 ATP! There’s got to be a better way!

  5. Thatsounds morelike it! There is a better way! • Electron Transport Chain • series of molecules built into inner mitochondrial membrane • mostly transport proteins • transport of electrons down ETC linked to ATP synthesis • yields ~34ATP from 1 glucose! • only in presence of O2 (aerobic)

  6. Mitochondria • Double membrane • outer membrane • inner membrane • highly folded cristae* • fluid-filled space between membranes = intermembranespace • matrix • central fluid-filled space * form fits function!

  7. Electron Transport Chain

  8. Remember the NADH? Kreb’s cycle Glycolysis PGAL 8 NADH 2 FADH2 4 NADH

  9. Electron Transport Chain • NADH passes electrons to ETC • H cleaved off NADH & FADH2 • electrons stripped from H atoms  H+ (H ions) • electrons passed from one electron carrier to next in mitochondrial membrane (ETC) • transport proteins in membrane pump H+ across inner membrane to intermembrane space High concentration is here – therefore pump is used

  10. electrons flowdownhill toO2 But what “pulls” the electrons down the ETC?

  11. Electrons flow downhill • Electrons move in steps from carrier to carrier downhill to O2 : less energy as we go • each carrier more electronegative • controlled oxidation • controlled release of energy

  12. Why the build up H+? • only channel permeable to H+ • H+ flow down concentration gradient = provides energy for ATP synthesis • flowing H+ cause change in shape of ATP synthase enzyme • powers bonding of Pi to ADP • ATP synthase • enzyme in inner membrane of mitochondria ADP+PiATP

  13. So that’sthe point! ATP synthesis • Chemiosmosis couples ETC to ATP synthesis • build up of H+ gradient just so H+ could flow through ATP synthase enzyme to build ATP

  14. Cellular respiration

  15. C6H12O6 + 6CO2 + 6H2O + ~36 ATP 6O2 Summary of cellular respiration • Where did the glucose come from? • Where did the O2 come from? • Where did the CO2 come from? • Where did the H2O come from? • Where did the ATP come from? • What else is produced that is not listed in this equation? • Why do we breathe?

  16. Taking it beyond… • What is the final electron acceptor in electron transport chain? O2 • So what happens if O2 unavailable? • ETC backs up • ATP production ceases • cells run out of energy • and you die!

  17. What’s the point? The Point is to Make ATP! ATP

  18. Any Questions??

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