00:01
In order to answer this question, we have to talk about the aerobic cell respiration.
00:05
Remember that aerobic cell respiration, for example, glucose catabolism, is going to start with a glucose molecule.
00:11
This glucose is going to be broken down via the process of glycolysis and it is going to produce two pyruid molecule.
00:19
This process is called glycolysis and it occurs in the cytosol.
00:25
And this glycolysis is part of the aerobic cellic respiration, however it does not require oxygen.
00:31
So this glycolysis is going to be active in aerobic respiration or in aerobic conditions and also in an aerobic condition.
00:38
After this, each of these pyruid molecules is going to enter mitochondrial and they are going to be converted to acetyl co -a.
00:47
This process is called pyruid oxidation.
00:49
Okay.
00:50
And finally each of these processes or each of this acetal coate molecule is going to enter the crept cycle in order to produce an adhd, fadh and also some atp.
01:01
All the nadh and fadh2 that have been produced during all of these processes that we have mentioned here are electron carriers and they are going to take those electrons to the electron transport chain that requires oxygen.
01:12
This oxygen is going to accept those electrons and you are going to produce an electron or a proton gradient here and this is going to cause atp synthesis via oxidative of correlation...