If someone could take the time to answer these questions I will give you best answer! I'm trying to get these so I can start studying for my test! Thank you!
What substrate is reduced to form NADH?
What does it mean in terms of electron transfers and energy for NADH to be reduced?
What substrate is phosphorylated to form ATP?
In the presence of oxygen, what happens to pyruvate to change it into a molecule that can enter the Krebs Cycle?
What is produced from this process (molecules and energy)?
How many of the original carbons are left from glucose after Glycolysis and Oxidative Respiration?
What is the net energy gain from 1 glucose molecule after Glycolysis and Oxidative Respiration?
How many ATP, NADH, FADH?
What does the electron transport chain do with the Hydrogen it receives from the NADH and FADH2, that were produced in aerobic cell respiration?
What substrate is reduced to form NADH?
What does it mean in terms of electron transfers and energy for NADH to be reduced?
What substrate is phosphorylated to form ATP?
In the presence of oxygen, what happens to pyruvate to change it into a molecule that can enter the Krebs Cycle?
What is produced from this process (molecules and energy)?
How many of the original carbons are left from glucose after Glycolysis and Oxidative Respiration?
What is the net energy gain from 1 glucose molecule after Glycolysis and Oxidative Respiration?
How many ATP, NADH, FADH?
What does the electron transport chain do with the Hydrogen it receives from the NADH and FADH2, that were produced in aerobic cell respiration?
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What substrate is reduced to form NADH? NAD+
What does it mean in terms of electron transfers and energy for NADH to be reduced? It means that NAD+ has picked up electons, and thus gained energy.
What substrate is phosphorylated to form ATP? ADP (It has 2 phosphate groups, ATP has 3)
In the presence of oxygen, what happens to pyruvate to change it into a molecule that can enter the Krebs Cycle? It is stripped of electrons (they go to form another NADH), looses an carbon atom in the form of CO2, and is atatched to Coenzyme A
What is produced from this process (molecules and energy)? NADH, Acetyl CoA, Co2
How many of the original carbons are left from glucose after Glycolysis and Oxidative Respiration? Since matter cannot be created or destoryed all of them are left--they have just turned it CO2, and have gone to reform oxaloactetic acid
What is the net energy gain from 1 glucose molecule after Glycolysis and Oxidative Respiration? It depends on how much NADH and FADH is used. FADH is added onto the ETC later than NDH, so it more FADH is used, less ATP is produced
How many ATP, NADH, FADH?
See above
What does the electron transport chain do with the Hydrogen it receives from the NADH and FADH2, that were produced in aerobic cell respiration? It pumps it across the inner membrane of the mitochondria. This creates a proton gradient. the proton motive force is used to power chemiosmosis, and the production of ATP with ATP synthase
What does it mean in terms of electron transfers and energy for NADH to be reduced? It means that NAD+ has picked up electons, and thus gained energy.
What substrate is phosphorylated to form ATP? ADP (It has 2 phosphate groups, ATP has 3)
In the presence of oxygen, what happens to pyruvate to change it into a molecule that can enter the Krebs Cycle? It is stripped of electrons (they go to form another NADH), looses an carbon atom in the form of CO2, and is atatched to Coenzyme A
What is produced from this process (molecules and energy)? NADH, Acetyl CoA, Co2
How many of the original carbons are left from glucose after Glycolysis and Oxidative Respiration? Since matter cannot be created or destoryed all of them are left--they have just turned it CO2, and have gone to reform oxaloactetic acid
What is the net energy gain from 1 glucose molecule after Glycolysis and Oxidative Respiration? It depends on how much NADH and FADH is used. FADH is added onto the ETC later than NDH, so it more FADH is used, less ATP is produced
How many ATP, NADH, FADH?
See above
What does the electron transport chain do with the Hydrogen it receives from the NADH and FADH2, that were produced in aerobic cell respiration? It pumps it across the inner membrane of the mitochondria. This creates a proton gradient. the proton motive force is used to power chemiosmosis, and the production of ATP with ATP synthase