2 pts DQuestion 7 For arachadic acid calculate the total number of FADH2 and NADH molecules, respectively, that are formed in the B-oxidation and subsequent utilization of CoA in the TCA cycle. Reference figure 23.16 when calculating these values. 19,39 14, 26 O 2,5 12, 12 C-SCoA 7 CoA, 7 [FAD], 7 NAD B-Oxidation 7 [FADH21, 7 NADH +7H 8 Acetyl-CoA 100 ADP 100 Oxidative Electron transport phosphorylation 100 ATP 24 NADH, 8 [FADH TCA cycle >16 CO2 →8AIP FIGURE 23.16 Reduced coenzymes produced by B-oxidation and TCA cycle activity provide electr that drive the synthesis of ATP in oxidative phosphorylation. Complete oxidation of palmitoyl-Co yields a total of 108 ATP. Subtracting the 2 ATP equivalents consumed in forming the original Co thioester, oxidation of palmitate produces 106 ATP 2 pts DQuestion 7 For arachadic acid calculate the total number of FADH2 and NADH molecules, respectively, that are formed in the B-oxidation and subsequent utilization of CoA in the TCA cycle. Reference figure 23.16 when calculating these values. 19,39 14, 26 O 2,5 12, 12 C-SCoA 7 CoA, 7 [FAD], 7 NAD B-Oxidation 7 [FADH21, 7 NADH +7H 8 Acetyl-CoA 100 ADP 100 Oxidative Electron transport phosphorylation 100 ATP 24 NADH, 8 [FADH TCA cycle >16 CO2 →8AIP FIGURE 23.16 Reduced coenzymes produced by B-oxidation and TCA cycle activity provide electr that drive the synthesis of ATP in oxidative phosphorylation. Complete oxidation of palmitoyl-Co yields a total of 108 ATP. Subtracting the 2 ATP equivalents consumed in forming the original Co thioester, oxidation of palmitate produces 106 ATP