<Li> ATP: NADH + H coming from glycolysis ratio during the oxidative phosphorylation is <Ul> <Li> 1.5, as for FADH, if hydrogen atoms (2H + 2e) are transferred from cytosolic NADH + H to mitochondrial FAD by the glycerol phosphate shuttle located in the inner mitochondrial membrane . </Li> <Li> 2.5 in case of malate - aspartate shuttle transferring hydrogen atoms from cytosolic NADH + H to mitochondrial NAD </Li> </Ul> </Li> <Ul> <Li> 1.5, as for FADH, if hydrogen atoms (2H + 2e) are transferred from cytosolic NADH + H to mitochondrial FAD by the glycerol phosphate shuttle located in the inner mitochondrial membrane . </Li> <Li> 2.5 in case of malate - aspartate shuttle transferring hydrogen atoms from cytosolic NADH + H to mitochondrial NAD </Li> </Ul> <Li> 1.5, as for FADH, if hydrogen atoms (2H + 2e) are transferred from cytosolic NADH + H to mitochondrial FAD by the glycerol phosphate shuttle located in the inner mitochondrial membrane . </Li> <Li> 2.5 in case of malate - aspartate shuttle transferring hydrogen atoms from cytosolic NADH + H to mitochondrial NAD </Li>

3 ways in which energy released in respiration is used