Tricarboxylic Acid Cycle (TCA Cycle) Lecture Notes PDF

Summary

These lecture notes detail the Tricarboxylic Acid Cycle (TCA Cycle), also known as the Krebs cycle or Citric Acid cycle, a crucial metabolic pathway in living organisms. The notes cover the objectives, function, reactions, and regulation of the cycle. They also explain the energetics of the cycle and the anaplerotic reactions.

Full Transcript

Objectives At the end of this topic the students should be able to: 1. Describe further processing of acetyl in TCA cycle 2. Calculate the energy yield per turn of the cycle Prof S Nayak Tricarboxylic acid cycle (TCA Cycle) [Kreb’s cycle] [Citric acid cycle] Is the final common oxidative pathway for carbohydrates, fats and amino acids Along with energy, cycle supplies many intermediates required for the synthesis of amino acids, glucose,heme etc. Site: mitochondrial matrix Oxidation of acetyl CoA  Co2 + H2O Occurs in a cyclic manner, generate ATP Two carbon, acetyl CoA + 4 carbon, Oxaloacetate = 6 carbon tricarboxylic acid, citrate Prof S Nayak Prof S Nayak Cis-aconitate is a transient one with very short half-life. Immediate H2O added to it and forms Isocitrate\ CO2  Isocitrate  oxalosuccinate -ketoglutatrate. It is an oxidative decarboxylation Oxalosuccinate is unstable so it undergoes spontaneous decarboxylation to from  -KG TCA is both catabolic and anabolic  amphibolic Prof S Nayak Energetics of TCA Cycle Steps 4, 6, 10  3 NADH 1 NADH = 3 ATP] 3 ATP x 3 = 9 ATP Step 8  1 FADH2 1 FADH2 = 2 ATP] 2 ATP x 1 = 2 ATP Step 7  1 GTP 1 GTP = 1 ATP 1 ATP x 1 = 1 ATP Therefore 1 acetyl CoA gives 12 ATP Therefore 1 acetyl CoA gives 12 ATP Two acetyl CoA in citric acid cycle produces 24 ATP Energetics of complete oxidation of glucose Aerobic glycolysis  8 ATP Oxidation of 2 pyruvate = 6 ATP Oxidation of 2 Acetyl CoA by TCA cycle  24 ATP Net Gain = 38 ATP Prof S Nayak Amphibolic nature of TCA cycle Non essential aa Aspartate Acetyl CoA Purines , Transamination Pyrimidines. Oxaloacetate Citrate Acetyl CoA Fatty acids, steroids Pyruvate  -KG Transanimation Succinyl COA Glutamate Malate Heme Prof S Nayak Non-essential a a, purines Anaplerosis The reactions concerned to replenish the intermediates of TCA cycle are called anaplerotic reactions or anaplerosis Pyruvate +CO2 + ATP carboxylase oxaloacetate + ADP + Pi Pyruvate +CO2 + NADPH + H + Malic enzyme Malate Inhibitors that inhibit the enzymes of TCA cycle are: Aconitase fluoroacetate - Ketoglutarate DH Arsenite Non-competitive Succinate DH Malonate Prof S Nayak }- competitive Regulation of TCA cycle 1. Citrate synthase: inhibited by ATP, NADH, acyl CoA and succinyl CoA 2. Isocitrate dehydrogenase: Inhibited by ATP and NADH and activated by ADP 3. -KG dehydrogenase inhibited by NADH & succinyl CoA The availability of ADP: Important for proceeding the TCA cycle if not oxidation of NADH and FADH2 through election transport chain stops. Accumulation of NADH and FADH2, inhibit the enzymes of TCA cycle. Ref: Essentials of Biochemistry, Dr S Nayak Prof S Nayak