The three end products of aerobic respiration are carbon dioxide, water and energy in the form of adenosine triphosphate, or ATP, according to the BBC. Aerobic respiration is a chemical process where the body takes in food substances and converts it into energy that can be used by the body. Aerobic respiration requires one crucial molecule: oxygen.Know More
The entire chemical conversion process happens entirely in the mitochondrial cells. Aerobic respiration involves four different processes: glycolysis, formation of the acetyl coenzyme A, which is an intermediate, the citric acid cycle and chemiosmosis paired with movement across the electron transport chain.
The main goal of aerobic respiration to produce energy that can be used by the body, and these processes are extremely effective. Aerobic respiration produces a net gain of 36 ATP molecules with 252 kcal stored as total free energy in the phosphate bonds. To do this, aerobic respiration will take in a molecule of glucose, six molecules of oxygen, six molecules of hydrogen dioxide, 38 molecules of adenosine diphosphate, or ADP, and 38 phosphorous molecules, and converts it to six carbon dioxide molecules, 12 hydrogen dioxide molecules, 38 ATP molecules and 420 kcal. The extra energy is stored in the extra phosphate bond found in ATP, which has three phosphorous molecules, rather than ADP, which only has two.Learn more about Medical Ranges & Levels
According to the State University of New York, the major products released during cellular respiration are carbon dioxide, water and energy in the form of ATP molecules. These are all generated in several steps in the progressive breakdown of glucose molecules through reactions with oxygen and other molecules.Full Answer >
Cells release stored energy by transferring a phosphate group from adenosine triphosphate, or ATP, to a receptor in another biological molecule. This process results in a change in a cellular mechanism and a remnant adenosine diphosphate, or ADP, which must be replenished via cellular metabolism. This process is shared by every form of life yet discovered.Full Answer >
The Calvin cycle uses carbon dioxide, water and adenosine triphosphate, or ATP, to produce high-energy sugars such as glucose, fructose and sucrose. It is one of the core processes of photosynthesis in plants, and the ATP it uses is ultimately produced from sunlight in other parts of the chloroplast. In certain plants, cells with chloroplasts are paired, with one primarily producing ATP, leaving the other for the Calvin cycle.Full Answer >
Most of the ATP for aerobic respiration is produced during the Krebs Cycle, also called the citric acid cycle, which breaks down pyruvate, the end product of glycolysis, to produce ATP. This process is duplicated twice so it can produce twice as many ATP as the cycles that come before it.Full Answer >