TCA cycle Flashcards
What is required for nucleic acid synthesis?
Requires a precursor from carbohydrate source (PIPP)
and a precursor from proteins
b-oxidation of fat yields _
b-oxidation of fat yields Acetyl-CoA
Apart from fats, what is another substance that yields Acetyl-Coa?
Some AA (e.g. Leucine, Threonine etc)
How can pyruvate be converted to Acetyl-CoA?
Oxidative decarboxylation by a large enzymatic complex- pyruvate dehydrogenase complex
Describe Oxidative decarboxylation
Purpose
Irreversible/reversible
Products
Converts pyruvate to Acetyl-CoA
It is irreversible
Makes NADH
Can mammals convert Acetyl-CoA to pyruvate?
No
Describe PDC
PDC – cluster of multiple copies of three enzymes
- Pyruvate dehydrogenase (E1), - Dihydrolipoyl transacetylase (E2)
- Dihydrolipoyl dehydrogenase (E3)s
Converts pyruvate to Acetyl-CoA
Steps of how pyruvate is turned into Acetyl-CoA
Step 1: pyruvate is taken up by a prosthetic arm - thiamine pyrophosphate (TPP) of pyruvate dehydrogenase (E1), undergoing decarboxylation to the hydroxyethyl derivative- carboxyl group is removed as CO2
Step 2: TPP moves and transfers hydroxyethyl group to another prosthetic arm on dihydrolipoyl transacetylase (E2) - lipoyllysyl. Attachment of the backbone of pyruvate turn lipoyllysine to an Acyl lipoyllysine which is attached to lysine amino acid on E2 enzyme.
Step 3: CoA group gets attached to pyruvate backbone to yield acetyl-CoA and the fully reduced (dithiol) form of the lipoyl arm which cannot accept the pyruvate arm coming in, so it has to be oxidized by removing hydrogens.
In step 4 dihydrolipoyl dehydrogenase (E3) promotes transfer of two hydrogen atoms from the reduced lipoyl arm of E2 to the FAD prosthetic group of E3, restoring the oxidized form of the lipoyllysyl group of E2.
In step 5 the reduced FADH2 of E3 transfers a hydride ion to NAD+, forming NADH. The enzyme complex is now ready for another catalytic cycle.
Once Acetyl CoA is available (from __, __), it can enter _
Once Acetyl CoA is available (from b-oxidation, AA metabolism), it can enter TCA cycle
Acetyl group of pyruvate is transferred to __
Acetyl group of pyruvate is transferred to CoA-SH
TCA: _ intermediates _ enzymes (steps) Acetyl-CoA donates _ carbons to _ carbon compound (oxaloacetate)
TCA: 9 intermediates 8 enzymes (steps) Acetyl-CoA donates 2 carbons to 4 carbon compound (oxaloacetate)
List the intermediates of TCA
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C - citrate I - isocitrate K - a-ketoglutarate S - succinyl CoA S - succinate F - fumarate M - malate O - oxaloacetate
List the enzymes for TCA
Can Anthony Drink Down Seven Drinks 'Fore Death C- Citrate synthase A- Aconitase D- Isocitrate dehydrogenase D-α-ketoglutarate dehydrogenase[edit] S- Succinyl coenzyme A synthetase DS- Succinate dehydrogenase F- Fumarase De- Malate dehydrogenase
In order for TCA to continue, __ has to interact with __
In order for TCA to continue, oxaloacetate has to interact with incoming Acetyl- CoA
How many dehydrogenases are there in TCA cycle?
4
How many irreversibel reactions are there in TCA cycle?
3
How does Acetyl-CoA enter the TCA?
Acetyl-CoA enters the TCA carrying 2 carbons which are donated to 4 carbon compound oxaloacetate which now enters the cycle as citrate
What does Acetyl-CoA contribute to in TCA?
Two carbon atoms of Acetyl-CoA are converted to CO2
Two carbons of Acetyl-CoA do not contribute to CO2 in the first pass!!!
2Co2 come from 3rd and 4th reaction catalyzed by isocitrate dehydrogenase and a-ketoglutarate dehydrogenase
Which step produces ATP in TCA
What’s special about it?
Succinyl-CoA synthetase converts succinyl-CoA to succinate
- It uses ATP as it is a synthetase when in converts succinate to succinyl-Co
In TCA in does an opposite reaction-> generates ATP or GTP
There are 2 isoforms of Succinyl-CoA synthetase- one generates GTP one generates ATP
Either of those can be a part of TCA cycle
Acetyl-CoA = _CO2 + _ NADH + _ FADH2 + _ ATP
Acetyl-CoA = 2 CO2 + 3 NADH + 1 FADH2 + 1 ATP
