Between 36-38
Approximately 30-32 ATP molecules are produced through cellular respiration for each glucose molecule burned, depending on factors such as the efficiency of ATP production in the electron transport chain.
If cellular respiration begins with two molecules of glucose, a total of about 76 molecules of ATP can be generated through the process of glycolysis, the citric acid cycle, and oxidative phosphorylation. This is because each molecule of glucose yields approximately 38 molecules of ATP through the complete process of cellular respiration.
During cellular respiration, the energy rich molelcule ATP (adenosine triphosphate) is produced.Cells undergoing aerobic respiration produce 6 molecules of carbon dioxide, 6 molecules of water, and up to 30 molecules of ATP (adenosine triphosphate), which is directly used to produce energy, from each molecule of glucose in the presence of surplus oxygen.
Photosynthesis make glucose molecules and store energy. Respiration break up and release energy
Cellular Respiration is the process in the cell that creates energy (ATP). Cellular Respiration is broken up into three stages; Glycolysis, the Krebs Cycle, and the Electron Transport Chain. Glycolysis takes place in the cytoplasm of the cell and is responsible for the net formation of 2 ATP molecules. The process then enters the matrix of the mitochondria where the Krebs Cycle takes place. The Krebs Cycle is responsible for the formation of 4 ATP molecules. Finally, the Electron Transport Chain is responsible for the formation of 30 ATP molecules. Therefore, for each cycle of cellular respiration, 36 molecules of ATP are produced in the cell.
Each glucose molecule is converted to two molecules of pyruvate through glycolysis. Each molecule of pyruvate can then be converted to 1 acetyl CoA for a total of 2 acetly groups from 1 glucose
Without oxygen - only glycolysis occurs. This results in very few ATP molecules. With oxygen, all of celluar respiration occurs and this results in almost 40 ATP molecules. So, oxygen is essential to the production of mass ATP molecules.
NADH is produced during two phases of cellular respiration: glycolysis and the citric acid cycle (Krebs cycle). In glycolysis, one molecule of NADH is generated for each glucose molecule processed. Additionally, during the citric acid cycle, multiple NADH molecules are produced as acetyl-CoA is oxidized. These NADH molecules play a crucial role in the electron transport chain, contributing to ATP production.
Yes, other molecules besides glucose can be used in cellular respiration. Fatty acids and amino acids can also be broken down in specific pathways to generate ATP through cellular respiration. Each type of molecule enters cellular respiration at different points in the metabolic pathway.
The products of cellular respiration that end up being released are water and carbon dioxide. There are 6 molecules of each of these for every molecule of glucose that is broken down.
I am also confused, when I google it i get 38, but that isn't an option on my homework assignment =/ I was told it was something to do with whether it was agreed that FADH produced any ATP. It obviously does, but some exam boards refute this and so the answer is 36 ATP. I'm not entirely sure why...
Cellular respiration is possible without photosynthesis in an organism but photosynthesis is not possible without cellular respiration.