APK 3110C Lecture Notes - Lecture 6: Adenosine Triphosphate, Atp Hydrolysis, Phosphate
Document Summary
Adp, and pi: the imbalance stimulates the breakdown of other stored energy containing compounds to resynthesize atp. Atp regeneration: the reaction uses 2 adp molecules to produce one molecule of atp and amp, pcr interacts with adp to form atp this non-aerobic high energy reservoir replenishes. Oxidative phosphorylation: oxidation phosphorylation synthesizes atp by transferring electrons from nadh and. Efficiency of electron transport oxidative phosphorylation: each mole of atp formed from adp conserves approximately 7 kcal of energy. H2o with considerable atp production: 6 fuel sources that supply substrate for atp formation, triaglycerol and glycogen molecules stored within muscle cells, blood glucose, free fatty acids. Intramuscular and liver derived carbon skeletons of amino acids: anaerobic reactions in the cytosol in the initial phase of glucose or glycogen breakdown, phosphorylation of adp by pcr under enzymatic control by creatine kinase and adenylate kinase.