8
36 atp
about 17
All of the steps make ATP, but the one that makes the most is the third step, electron transport
After glycolysis and Kreb cycle, the third process is the electron transport chain, from where the most ATP are made.
water is made during the electron transport chain (etc) phase.
In Cellular Respiration, there are two ways of making ATP: Aerobic and Anaerobic. These processes occur in the Mitochondria. The first step of Aerobic Respiration is anaerobic (Yes, it's a bit confusing). This step is called Glycolysis, the process of turning Glucose into Pyruvate Acids, NADP, and ADP. From here is where Aerobic Respiration occurs if there is oxygen present. It goes on into Citric Acid Cycle, where it adds Hydrogen ions to the NADP, FAD, and ADP to make high-energy molecules. Next is the Electron Transport Chain, where the rest of the ATP is made. In all, around 36 ATP is made.
I. Cellular Respiration: breaking down sugar in the presence of oxygen (aerobic).Photosynthesis (you recall...) is the process by which CO2 and H2O are used to make sugars and starches.During Cellular Respiration, sugar is broken down to CO2 and H2O, and in the process, ATP is made that can then be used for cellular work.The overall reaction for cellular respiration: (does this reaction look familiar? Overall, it is the reverse reaction of photosynthesis, but chemically, the steps involved are very different.)C6H12O6 + 6O2 -------------------> 6CO2 + 6H2O + ~38 ATP
All of the steps make ATP, but the one that makes the most is the third step, electron transport
After glycolysis and Kreb cycle, the third process is the electron transport chain, from where the most ATP are made.
water is made during the electron transport chain (etc) phase.
The most ATP is created when NADH+ is reduced in the electron transport chain to NAD which causes a proton gradient that is then pumped through ATP synthase (and enzyme) creating most of the ATP in Cellular Resp.
In Cellular Respiration, there are two ways of making ATP: Aerobic and Anaerobic. These processes occur in the Mitochondria. The first step of Aerobic Respiration is anaerobic (Yes, it's a bit confusing). This step is called Glycolysis, the process of turning Glucose into Pyruvate Acids, NADP, and ADP. From here is where Aerobic Respiration occurs if there is oxygen present. It goes on into Citric Acid Cycle, where it adds Hydrogen ions to the NADP, FAD, and ADP to make high-energy molecules. Next is the Electron Transport Chain, where the rest of the ATP is made. In all, around 36 ATP is made.
The electron transport chain; it makes 32-34 ATP.
Cellular Respiration
Biology textbooks often state that 38 ATP molecules can be made per oxidized glucose molecule during cellular respiration (2 from glycolysis, 2 from the Krebs cycle, and about 34 from the electron transport system).
I. Cellular Respiration: breaking down sugar in the presence of oxygen (aerobic).Photosynthesis (you recall...) is the process by which CO2 and H2O are used to make sugars and starches.During Cellular Respiration, sugar is broken down to CO2 and H2O, and in the process, ATP is made that can then be used for cellular work.The overall reaction for cellular respiration: (does this reaction look familiar? Overall, it is the reverse reaction of photosynthesis, but chemically, the steps involved are very different.)C6H12O6 + 6O2 -------------------> 6CO2 + 6H2O + ~38 ATP
cellur respiration
Cyanide inhibits respiration. By inhibiting respiration, you also inhibit active transport because active transport requires energy from ATP made in respiration. Remember: anything that affects respiration, affects active transport too, because it is an energy requiring process!
We all need energy to function and we get this energy from the foods we eat. The most efficient way for cells to harvest energy stored in food is through cellular respiration, a catabolic pathway for the production of adenosine triphosphate (ATP). ATP, a high energy molecule, is expended by working cells. Cellular respiration occurs in both eukaryotic and prokaryotic cells. It has three main stages: glycolysis, the citric acid cycle, and electron transport.