Chapter 16 The citric Acid Cycle The common pathway leading to complete oxidation of carbohydrates, fatty acids, and amino acids to CO2. 5 A pathway providing many precursors for biosynthesis
Chapter 16 The Citric Acid Cycle The common pathway leading to complete oxidation of carbohydrates, fatty acids, and amino acids to CO2 . A pathway providing many precursors for biosynthesis
gel. The cellular respiration (complete oxidation of fuels) can be divided into three stages StageI All the fuel molecules are oxidized to generate a common two-carbon unit. acetyl-coA Stage II The acetyl-CoA is completely oxidized into CO2, with electrons collected by NAD and FAD via a cyclic pathway (named as the citric acid cycle Krebs cycle, or tricarboxylic acid cycle) Stage lll Electrons of NADH and FADH, are yo cansferred to o, via a series carr riers, producin g and a H gradient, which will promote ATP formation
1. The cellular respiration (complete oxidation of fuels) can be divided into three stages • Stage I All the fuel molecules are oxidized to generate a common two-carbon unit, acetyl-CoA. • Stage II The acetyl-CoA is completely oxidized into CO2 , with electrons collected by NAD and FAD via a cyclic pathway (named as the citric acid cycle, Krebs cycle, or tricarboxylic acid cycle). • Stage III Electrons of NADH and FADH2 are transferred to O2 via a series carriers, producing H2O and a H+ gradient, which will promote ATP formation
Stage I Intermembrane Amino Fatty Acetyl-CoA spac君 acids acid Glycolysis ansporter Citric acid cycle Pyruvate HSCOA Acetyl COA 3NADH FA ATP,.PP FADH, HSCOA Acetyl-CoA tare Mitochondrial T Acetyl-CoA NADH NAD ADP FAD Oxal 2+H+102→H2O NADH NAD FAD Citric Transporter acid cycle Electron transpon complexes Transport of metabolites Pyruvate dehydrogenase and citric acid cycle into the mitochondrion NADH ATP synthesis by Fo F FADHg Fatty acid metabolism Using proton-motive (reduced Stage 3 Electron transport from ATP export AD Electron transfer and oxidative cygan: generation of phosphorylation oton.motive force 2H+3o Respiratory Mitochondria is the major site for (electron transfer) ADP+P fuel oxidation to generate ATP. ATP
Mitochondria is the major site for fuel oxidation to generate ATP
2. Pyruvate is oxidized to acetyl- CoA by the catalysis of pyruvate R dehydrogenase complex Pyruvate is first transported into mitochondria via a specific transporter on the inner membrane Pyruvate is converted to acetyl-COA and CO2 by oxidative decarboxylation. DI The pyruvate dehydrogenase complex is a huge multimeric assembly of three kinds of enzymes having 60 subunits in bacteria and more in mammals Pyruvate is first decarboxylated after binding to the prosthetic group (TPP)of pyruvate dehydrogenase (E), forming hydroxyethyl-TPP707374329
