Pre-work 2-Key Takeaways:The electron transport chain allows for the efficient transfer ofenergy from electrons to a proton gradient.2 NADH and FADH₂ donate high energy electrons to the electrontransport chain.3 The electrochemical gradient provides stored energy that istransformed into the energy of chemiosmosis used by ATPsynthase to synthesize ATP4 Oxidative phosphorylation is the pathway utilizing electrontransport chains, chemiosmosis and ATP synthase to make ATP.5 When decoupling occurs during cell respiration, heat is releasedand can be used for thermoregulation.Using your resources, complete thechart on the next page.ProcessGlycolysis AnswerPyruvateOxidationReactants ProductsKrebsCycleAnswerAnswerOxidative AnswerPhosphorylationAnswerAnswerAnswerAnswerLocationAnswerAnswerAnswerAnswerPre-work1LiveSession 1Pre work 2LiveSession 2WeeklySummary

Adenosine triphosphate (ATP) is considered to be the energy currency of all cells produced by cellular respiration in the mitochondrial matrix. The main substrate for the production of ATP is the glucose molecule that is hydrolyzed by different pathways to produce large amount of ATP molecules at the site of ATP production.Process Reactants Products Location Glycolysis Glucose, NAD+, 2 ATP Pyruvate, NADH, 4 ATP Cytoplasm Pyruvate Oxidation Pyruvate Acetyl CoA, CO2 Mitochondria Krebs Cycle Acetyl CoA, NAD+, FAD NADH, FADH 1 ATP per turn, CO2 Mitochondria Oxidative Phosphorylation NADH, FADH₂, O2 H2O. ATP Mitochondrial cristae