At the stage of Redox in the Electron transport chain:
All of the below are produced
2 ATP from substrate-level phosphorylation
6 NADH yields 18 ATP (assuming 3 ATP per NADH) by oxidative phosphorylation
2 FADH2 yields 4 ATP (assuming 2 ATP per FADH2) by oxidative phosphorylation
As you can see from above, NADH is the molecule that conserves most energy.
It takes place in the matrix of the mitochodrion.
Both cycles recycle the molecule needed for the first reaction.Both recycle the molecules needed so that they can occur again. Energy is required for both to occur.
The first reactant and last product are the same.
Yes.
2 & 6
It takes place in the matrix of the mitochodrion.
by using cycles in 21 st century
Both cycles recycle the molecule needed for the first reaction.Both recycle the molecules needed so that they can occur again. Energy is required for both to occur.
The first reactant and last product are the same.
Yes.
16
2 & 6
if you got the question "how many molecules of DNA would result from one molecule after FIVE cycles of PCR?" then the answer is 32, not 16
twice
The two high energy molecules that are produced in the Krebs Cycles are NADH and FADH2. :D
The citric acid cycles doesn't really metabolize glucose. That would be the glycolysis.
Plant releases oxygen. Oxygen molecules diffuse. Bear inhales.