TCA Cycle Flashcards
1) Where does TCA cycle occur and what is its function?
- Mitochondrial matrix
- Energy trapping and biosynthesis of intermediates
2) Describe the Link Reaction
CH3COOH + CoASH –> CH3CO-SCoA + CO2
- enzyme: pyruvate dehydrogenase
- cofactor: NAD+ –> NADH + H+
(CoA forms thioester bonds with carboxylic acids)
3) Reaction#1: condensation reaction
Oxaloacetate –> Citrate
- enzyme: citrate synthase
- addition of Acetyl CoA
4) Reaction#2: isomerisation reaction
Citrate –> Isocitrate
5) Reaction#3: first CO2 loss
Isocitrate –> alpha-ketoglutarate/ 2-oxo glutarate
- enzyme: isocitrate dehydrogenase
- NAD+ –> NADH + H+
- CO2 produced
6) Reaction#4: second CO2 loss
Alpha-ketoglutarate –> Succinyl CoA
- enzyme: alpha-ketoglutarate dehydrogenase
- addition of CoA-SH (coenzyme A)
- NAD –> NADH+ + H+
- CO2 produced
7) Reaction#5: trapping thioester bond energy as GTP
Succinyl CoA –> Succinate
- loss of coenzyme A
- GDP + Pi –> GTP
8) Reaction#6: conversion of succinate to fumarate
Succinate –> Fumarate
[succinate dehydrogenase]
- FAD –> FADH2
9) Reaction #7: conversion of fumarate to malate
Fumarate –> Malate
-addition of H20
10) Reaction #8: conversion of malate to oxaloacetate
Malate –> Oxaloacetate
[malate dehydrogenase]
- NAD+ –> NADH + H+
11) Total energy yield of TCA cycle?
3 x NADH (2.5)
1 x FADH2 (1.5)
[NADH and FADH2 reduced cofactors are produced by dehydrogenase enzymes]
1 x GTP (1)
= 10 ATP
12) What are the 3 irreversible (regulatory) reactions?
- Citrate synthase
- Isocitrate dehydrogenase (co2 produced)
- alpha-ketoglutarate dehydrogenase (co2 produced)
13) What are inhibitors for citrate synthase?
- ATP, NADH, succinyl-CoA
14) Inhibitors and activator of isocitrate dehydrogenase?
- ATP, NADH
- activated by ADP
15) Inhibitors of alpa-ketoglutarate dehydrogenase?
- NADH, succinyl-CoA
