WebDec 12, 2024 · Aerobic respiration can also use fatty acids from fat reserves in muscle and the body to produce ATP. In extreme cases (like starvation), proteins can also be broken down into amino acids and used to make ATP. Aerobic respiration would use carbohydrates first, then fats and finally proteins, if necessary. WebSource of Fuel – The aerobic system can use CHO, fats, and protein as its source of fuel, though protein is used sparingly. The aerobic system uses aerobic glycolysis, the Krebs cycle and the electron transport chain in its production of ATP. It is the presence of oxygen, which allows this energy system to use […]
3 Energy Systems in the Body livestrong
WebThe process of synthesising ATP (adding a phosphate group back to ADP) is called phosphorylation. If this occurs in the presence of oxygen it is called aerobic metabolism (or 'oxidative phosphorylation' if we want to be really really technical). If it occurs without oxygen it is called anaerobic metabolism. WebThe condensation of ADP and inorganic phosphate takes place during photosynthesis and respiration, and is catalysed by the enzyme ATP synthase. Because it synthesises ATP. … simon thellsson
ATP: What Is It And Why Is It Important? - Bodybuilding.com
WebOne method of providing more ATP is to break down another stored chemical containing a high-energy phosphate bond so that the energy released by its breakdown can be used to reconstitute ATP from ADP and Pi: PC (creatine .010 PO 3−) decomposes to creatine plus a phosphate ion plus energy. WebWhen the ATP-PC system fades at 10 seconds anaerobic glycolysis begins, the system breaks down the liver and muscles glycogen stores without needing oxygen, this releases energy which can be used to resynthesise ATP. Why does the body break down glycogen instead of Glucose during anaerobic glucolysis? WebWhich is the fastest energy system to make ATP? As the fastest way to get ATP for muscle contraction, the phosphagen system is the predominant energy system used for races lasting up to 10 seconds. The muscles of sprinters like Maurice Greene, who has run 100 meters in 9.79 seconds, are great at producing ATP via the phosphagen system. simon thelwell havering