In the citric acid cycle acetyl-CoA combines with oxaloacetate to create citrate. This molecule then goes through a series of 8 reactions to create 3 NADH, 1 FADH2, and 1 GTP/ATP. The cycle regenerates oxaloacetate and is then ready for entry of another molecule of acetyl-CoA to repeat the entire process.
During the electron transport chain with oxidative phosphorylation, 3 molecules of ATP are produced per NADH. It gives up its electron to Complex I.
3 ATP molecules formed durind oxidation of one NADH2 in respiratory electron transport chain
From NADH in the electron cycle, the mitochondria may produce as many as 34 ATP molecules.
6 NADH+H+ are get generated per TCA cycle
1
ATP and NADH2
FAD and NADHThe pick up electrons, with attendant protons, to carry into the transport chain and become,FADH and NADH2
They enter what is called the respiratory chain or ( electron transport chain) where Hydrogen atoms are used to produce ATP and water .
Glycolysis starting with glucose results in the production of 2 x pyruvic acids per glucose which continue on in to the mitochondria, in the presence of oxygen, for complete breakdown; a net gain of 2 x ATP and the production of 2 x NADH2 which can enter the mitochondria and via their donated electrons give rise to 3 x ATP per NADH2 inn the presence of oxygen.
18 atp
ATP and NADH2
Gtp,nadh2,fadh2,co2
Produce ATP using energy of NADH2 and FADH2
energy in NADH2 and FADH2 used to generate ATP.3ATPs per NADH2 and 2ATP per FADH2 produced.
Produce ATP using energy of NADH2 and FADH2
ATP produced using NADH2 and FADH2.
THE ELECTRON TRANSPORT CHAIN IS THE LAST LINK ALL OF THE ENERGY FROM THE CITRIC ACID CYCLE IS USED FOR THE ELCTRON TRANSPORT CHAIN THE TOTAL ENERGY YIELD IS GLYCOLYSIS CITRIC ACID CYCLE TOTAL 4 NADH2 6 NADH2 10 NADH2 X 3 = 30 ATP 0 FADH 2 FADH2 2 FADH2 X 2 = 4 ATP 2 ATP 2 ATP 36 - 38 ATP ANY QUESTIONS LOOK ME UP i AM ON EVERY WEEK DAY SEARCH YOOHOO
THEORETICALLY: 2 FADH2, 10 NADH2, and 36 ATP
ATP and NADH2
ATP and NADH2
ATP and NADH2
Glycolysis, Krebs cycle and the electron transport chain. Glucose, polysaccharides and discaccharides go into glycolysis and that cycle can produce 2 ATP (adenosine triphosphate). Electrons are transfered to the Electron Transport chain. Pyruvic acid fermentation can make 2 ATP then goes down, releasing 2 NADH2 to the Electron Transport chain, with Acetyl CoA into the Krebs cycle which makes 4 CO2 and 4 ATP as well as sends 6 NADH2 and 2 FADH2 down to the electron transport chain. The 2 NADH2, 2 NADH2, 6 NADH2 and 2 FADH2 then go down the electron transport chain realeasing energy a bit each time it goes down and in the end 34 ATP is created.