Citric Acid Cycle

Descrição

Mapa Mental sobre Citric Acid Cycle, criado por kellygorrell em 27-04-2014.
kellygorrell
Mapa Mental por kellygorrell, atualizado more than 1 year ago
kellygorrell
Criado por kellygorrell mais de 10 anos atrás
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Resumo de Recurso

Citric Acid Cycle
  1. Overview

    Anotações:

    • 1. At times, fatty acid recovery 2. Provides intermediates for other reactions & pathways 3. Has a series of 8 reactions: Oxidizing acetyl group of acetyl-CoA to 2 molecules of CO2 & ocnserving energy in NADH & FADH2
    • 4. "Central hub" of all metabolism
    1. Output

      Anotações:

      • 1. 1 complete cycle yields 2 CO2, 3 NADH, 1 FADH2. 1 "high energy" compound-GTP or ATP
      1. Oxidation

        Anotações:

        • 1. Oxidation of acetyl coA to 2Co2 requries the transfer of 4 pairs of electrons. 2. Reduction of 3NAD+ to 3NADH accounts for 3 pairs 3. Reduction of FAD to FADH2 accounts for 4th pair 4. 11 ATP formed from these 4 electron pairs after eventual tranfer to O2
      2. Net Reaction

        Anotações:

        •  3NAD+ + FAD + GDP + P + acetyl-coA --> 3NADH + FADH2 + GTP + CoA + 2CO2
        • Oxaloacetate consumed in first and last step
        1. Transport

          Anotações:

          • 1. TCA occurs in mitochondria 2. All substrates including NAD+ & GDP generated in or transported into mitochondria 3. All products consumed in or transported out of mitochondria
        2. Purpose

          Anotações:

          • 1. Reduces carbon structures down to CO2 2. Produces reducing equivalents used in electron transport & subsequently reoxidized by O2
          • 3. Central pathway for recovering energy from Carbs, fatty acids, amino acids that have been broken down to acetyl-coA
          1. Input

            Anotações:

            • 1. Pyruvate & NADH are final products of glycolysis 2. Pyruvate-H+ symport moves pyruvate and H+ into mitochondria
          2. Synthesis of Acetyl Co-A
            1. Pyruvate Dehydrogenase Complex

              Anotações:

              • 1. Pyruvate is catalyzed by pyruvate dehydrogenase to Acetyl Co-A
              • 2. Group of noncovalently bound associated enzyme complexes
              1. Multienzyme complex

                Anotações:

                • Advantages: 1. Increase reaction rate because complex minimizes distance 2. Side reactions decreased; channeling of metabolic intermediates between successive enzymes 3. Coordinately controlled
                1. 3 Enzymes

                  Anotações:

                  • 1. Pyruvate dehydrogenase E1 2. Dihydrolipoyl transacetylase E2 3. Di hydrolipoyl dehydrogenase E3
                  • 2. Core 60 units  (20 trimers) E2
                  1. 5 Reactions
                    1. 5 Cofactors

                      Anotações:

                      • -Thiamine pyrophosphate (TPP), lipoamide, coA, FAD, NAD}
                      1. 1st Rxn

                        Anotações:

                        • 1. Pyruvate dehydrognease E1 requires cofactor TPP. Decarboxylates pyruvate to form hydroxyethyl TPP intermediate.
                        • 2. TPP thiazolium ring can add carbonyl group and act as electron sink
                        1. 2nd Rxn

                          Anotações:

                          • 1. Hydroxyethyl group transferred to next enzyme dihydrolipoyl transacetylase E2. E2 contains a lipoamide group - lipoic acid linked via amide bond
                          • 2. Reaction center is cyclic disulfide; reduced to yield dihydrolipoamide 3. Hydroxyethyl group derived from pyruvate attacks lipoamide disulfide with TPP eliminated
                          • 4. Hydroxyethyl carbanion is oxidized to an acetyl group as the lipoamide disulfide is reduced 5. Lipoamide group on E2 is key to moving intermediate between E1 & E3
                          1. Lipoamide group

                            Anotações:

                            • 1. Acts as long teher swinging disulfide group from E1 where it pics up hydroxyethyl group to E2 active site where hydroxyethyl group transferred forming acetyl coA
                            • 3. Swings from there to E3 where reduced disulfide is reoxidized
                          2. 3rd Rxn

                            Anotações:

                            • 1. E2 catalyzes transesterification reaction in which acetyl-group transferred to CoA yielding acetyl-CoA and dihydrolipoamide-E2
                            1. 4th Rxn

                              Anotações:

                              • 1. Acetyl-CoA formed 2. Must regenerate E2 lipoamide. E3 oxidizes & completes catalytic cycle of E2 3. Oxidized E3 contains reactive Cys-Cys disulfide group & tightly bound FAD
                              • 4. Oxidation of dihydrolipoamdie is disulfide interchange reaction
                              1. 5th Rxn

                                Anotações:

                                • 1. Reduced E3 reoxidized. Sulfhydryl groups reoxidized by FAD funneling electrons to NAD+ yielding NADH
                            2. Arsenic

                              Anotações:

                              • 1. Inhibits lipoamide containing enzymes including pyruvate dehydrogenase complex and alpha-ketogluturate dehydrogenase 2. Stops respiration: TCA cycle
                              1. Regulation of Pyruvate Dehydrogenase Complex
                                1. 1st Regulatory System

                                  Anotações:

                                  • 1. Product inhibition by NADH and acetyl CoA. Drives E2 & E3 backwards 2. Competitive inhibitors with NAD and CoA binding sites
                                  1. Conc. of NADH & Acetyl CoA

                                    Anotações:

                                    • 1. High [NADH]/[NAD+] & [AcetylCo-A]/[CoA] maintains E2 in acetylated form. Ties up TPP on E1 and E2 cannot accept hydroxyethyl group
                                  2. 2nd Regulatory System
                                    1. Covalent Modificiation of E1
                                      1. Pyruvate Dehydrogenase Kinase
                                        1. Activated by NADH & acetyl CoA
                                          1. Inactivates enzyme + ATP
                                        2. Pyruvate Dehydrogenase Phosphatase
                                          1. Activate enzyme
                                            1. When glucose increases, promotes synthesis of acety-CoA & glycogen
                                      2. Other Regulators
                                        1. Inhibit pyruvate dehydrogenase

                                          Anotações:

                                          • 1. Pyruvate, ADP 2. Ca+2 (also activates phosphatase) 3. no effect from cAMP
                                  3. 1. Citrate Synthesis

                                    Anotações:

                                    • 1. Catalyzes condensation of acetyl-CoA and oxaloacetate 2. Point at which carbon atoms from carbs, fatty acids, and amino acids enter cycle
                                    • 3. Ordered sequential. Oxaloacetate binds prior to acetyl-CoA
                                    • Flux: varies with [substrate] Inhibited by Citrate & succinyl-CoA
                                    1. Mechanism
                                      1. Oxaloacetate + Acetyl CoA
                                        1. Rate-limiting step and hydrogen bond

                                          Anotações:

                                          • 1. Enol of acetyl-CoA generated in rate-limiting step when Asp 375 (a base) removes proton from methyl group 2. His 274 forms hydrogen bond with enolate oxygen
                                          1. Citryl-CoA + Citrate

                                            Anotações:

                                            • 1. Formed in concerted acid-base catalyzed step 2. Citryl-CoA hydrolyzed to citrate and coA. 3. Free energy = -31.5 KJ/mol
                                          2. Acetyl-CoA binding site

                                            Anotações:

                                            • 1. By x-ray studies, know that free enzyme is dimer in"open" form 2. 2 domains form a cleft containing oxaloacetate binding site
                                            • 3. Oxaloacetate binds smaller domain, rotates 18 degrees. Explains enzyme's ordered sequential kinetics.
                                            • 4. Rotation generates acetyl-CoA binding site seals oxaloacetate binding site, excluding water
                                      2. 2. Aconitase

                                        Anotações:

                                        • 1. Catalyzes reversible isomerization of citrate to isocitrate with cis-aconitate as intermediate
                                        • 2. Begins with dehydration. Proton & OH removed. 3. Citrate has 2 carboxymethyl groups attached to central C atom. Prochiral rather than chiral then becomes chiral
                                        • Flux: near EQ
                                        1. Citrate --> cis-Aconitate --> Isocitrate

                                          Anotações:

                                          • 1. Aconitase contains iron-sulfur cluster. [4Fe-4S] coordinates -OH group of citrate to facilitate its elimination. Iron-sulfur clusters common in redox processes
                                          • 2. Rehydration of double bond of cis-aconitate to isocitrate
                                        2. 3. isocitrate Dehydrogenase

                                          Anotações:

                                          • 1. NAD+ dependent E catalyzes oxidative decarboxylation of isocitrate to alpha-ketoglutarate
                                          • 2. Inhibited by product NADH
                                          1. 1st CO2 & NADH

                                            Anotações:

                                            • 1. This CO2 began TCA as part of oxaloacetate and not acetyl CoA 2. Requires Mn+2 and Mg+2 cofactor & catalyzes oxidation of 2nd alcohol (isocitrate) to ketone (oxalosuccinate)
                                            • 3. Decarboxylation of carboxyl group Beta to ketone
                                            1. Isocitrate --> Oxalosuccinate --> Alpha-Ketoglutarate
                                          2. 4. Alpha Ketogluturate Dehydrogenase

                                            Anotações:

                                            • 1. Inhibited by NADH & succinyl-CoA
                                            1. 2nd CO2 & NADH

                                              Anotações:

                                              • 1. CO2 entered as part of oxaloacetate rather than acetyl-CoA
                                              1. Resembles pyruvate dehydrogenase multienzyme complex
                                              2. 5. Succinyl-CoA Synthetase
                                                1. "High-energy" cleavage

                                                  Anotações:

                                                  • 1. Couples cleavage of "high energy" succinyl-CoA to synthesis of "high energy" GTP
                                                  • 2. GTP normally synthesized from GDP + P. Energetically equivalent to ATP 3. Free energy = 0KJ/mol
                                                  1. Passed to GTP
                                                  2. 3 Step Process

                                                    Anotações:

                                                    • 1. Succinyl-CoA reacts with phosphate forming succinyl-phosphate and CoA
                                                    • 2. Phosphoryl group transferred from succinyl phosphate to His residue on E releasing succinate
                                                    • 3. Phosphoryl group on E transferred to GDP forming GTP
                                                    1. 1 Acetyl Equivalent oxidized to

                                                      Anotações:

                                                      • 2CO2, 2NADH, 1GTP
                                                  3. 6. Succinate Dehydrogenase
                                                    1. Dehydrogenation of Succinate to fumarate

                                                      Anotações:

                                                      • 1. Stereo-specific dehydrogenation of S to F 2. E strongly inhibited by malonate. Ex. of competitive inhibitor
                                                      • 3. 1. E contains FAD covalently linked 2. General biochem reaction oxidizes alkanes to alkenes
                                                      1. Produces FADH2

                                                        Anotações:

                                                        • 1. Reoxidized before next catalytic cycle 2. 2 electrons passed into electron transport
                                                      2. Only membrane-bound enzyme
                                                        1. Funnels electrons directly into electron transport
                                                      3. 7. Fumarase
                                                        1. Hydration of Double bond to form malate

                                                          Anotações:

                                                          • 1. Hydration proceeds via cabanion transition state. OH addition occurs before H+ addition
                                                        2. 8. Malate Dehydrogenase
                                                          1. Final step. Regeneration of oxaloacetate

                                                            Anotações:

                                                            • 1. OH group of malate oxidized in NAD+ dependent reaction
                                                            1. [Malate] high

                                                              Anotações:

                                                              • 1. Delta G0 = +27 KJ/mol. 2. At EQ, [oxaloacetate] very low relative to [malate]
                                                              1. Endergonic RXN
                                                            2. Citrate Synthase

                                                              Anotações:

                                                              • 1. Highly exergonic 2. Free deltaG0 = -31.5KJ/mol because of cleave of thioester bond of citryl CoA
                                                              1. Exergonic RXN

                                                                Anotações:

                                                                • 1. Coupled RXNs allow citrate formation to be exergonic evan at low [oxaloacetate]. Keeps TCA working
                                                            3. Energy Production
                                                              1. Regulators

                                                                Anotações:

                                                                • 1. Availability of substrates 2. Need for TCA cycle intermediates as biosynthetics precursors 3. Demand for ATP
                                                                1. Glycolysis Output
                                                                  1. 2 Pyruvate, 2NADH, 2 ATP

                                                                    Anotações:

                                                                    • 1. 2 net ATP. (Produces 4ATP but 2ATP required as input)
                                                                    1. 2 Pyruvate converted to 2acetyl-CoA & 2NADH
                                                                      1. TCA cycle: 3NADH, 1 FADH2, 12 ATP, 1 CO2 per turn
                                                                        1. 24 ATP from TCA cycle
                                                                  2. 1 Glucose Molecule
                                                                    1. Oxidative Phosphorylation (TCA cycle + pyruvate decarboxylation+ ETC?)
                                                                      1. 8NADH + 2 FADH2+2NADH=32ATP
                                                                        1. +4ATP from substrate-level phosphorylation of glycolysis & TCA
                                                                          1. 36 ATP
                                                                          2. 32 ATP
                                                                    2. Rate controlling steps
                                                                      1. 3 enzymes likely control candidates for deltaG

                                                                        Anotações:

                                                                        • 1. Citrate synthesis 2. Isocitrate dehydrogenase 3. Alpha-ketogluturate dehydrogenase
                                                                        1. Most Crucial Regulators

                                                                          Anotações:

                                                                          • 1. Substrates: Acetyl-CoA & Oxaloacetate 2. Product: NADH
                                                                          1. Additional Regulators

                                                                            Anotações:

                                                                            • 1. ADP: Allosteric activator of isocitrate dehydrogenase 2. ATP inhibits isocitrate dehydrogenase 3 Ca+2 activates pyruvate dehydrogenase phosphatase
                                                                            1. Calcium

                                                                              Anotações:

                                                                              • 1. Stimulates muscle contractions + production of ATP to fuel muscle contractions
                                                                        2. Heart Muscle

                                                                          Anotações:

                                                                          • 1. Flux proportional to O2 consumption 2. Regulated by feedback mechanisms that coordinate NADH production with energy expenditure
                                                                          1. Muscle

                                                                            Anotações:

                                                                            • 1. Muscle workload & respiration rate increases. Mitochondrial [NADH] decreases. [Oxaloacetate[ increases. Stimulates citrate synthase
                                                                          2. Related Reactions

                                                                            Anotações:

                                                                            • 1. Gluconeogenesis 2. Fatty Acid biosynthesis 3. Amino acid biosynthesis using oxaloacetate & Alpha-ketogluturate

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