10.1-10.2 Step 0 of citrate cycle

Question 1

where does the citrate cycle take place?

Answer 1

in the mitochondria

Question 2

what has to happen before the citrate cycle begins related to where it takes place?

Answer 2

pyruvate must be transported into the mitochondria

Question 3

how does pyruvate get to the mitochondria?

Answer 3

via a transmembrane transporter protein

Question 4

what happens when energy charge is low regarding the citrate cycle?

Answer 4

pyruvate is metabolized by pyruvate dehydrogenase to form acetyl CoA and CO2

Question 5

what are the 5 coenzymes needed for pyruvate dehydrogenase’s function os converting pyruvate to acetyl-CoA

Answer 5

1. NAD+/NADH
2. FAD/FADH2
3. CoA/CoAsh
4. TPP
5. alpha-lipoic acid

Question 6

what does NAD stand for?

Answer 6

nicotinamide adenine dinucleotide

Question 7

what is NAD+/NADH derived from?

Answer 7

niacin (vitamin B3)

Question 8

how many reactions is NAD+/NADH involved in?

Answer 8

over 200

Question 9

what does NAD+/NADH do? (how work?)

Answer 9

transfers to electrons at once as a hydride ion

Question 10

what is a niacin deficiency called?

Answer 10

pellagra

Question 11

what are 3 symptoms of pellagra? (niacin deficiency)

Answer 11

1. diarrhea
2. skin rash
3. neurologic problems

Question 12

what 3 food sources contain niacin?

Answer 12

1. fish
2. vegetables
3. poultry

Question 13

what does FAD stand for?

Answer 13

flavin adenine dinucleotide

Question 14

what is FAD/FADH2 derived from?

Answer 14

riboflavin (vitamin B2)

Question 15

what does FAD/FADH2 contribute to?

Answer 15

flavoproteins

Question 16

how is FAD reduced to FADH2? what is an advantage of this?

Answer 16

one electron at a time with a semiquinone intermediate; gives flexibility

Question 17

what is a riboflavin deficiency called?

Answer 17

cheliosis

Question 18

what are 2 symptoms of cheilosis (riboflavin deficiency)

Answer 18

swelled lips, cracked lips

Question 19

what foods contain riboflavin? (3)

Answer 19

1. almonds
2. meat
3. dairy

Question 20

what destroys riboflavin? how can this be applied to dairy storage?

Answer 20

light destroys riboflavin; this is why all dairy products are stored in opaque containers

Question 21

what is CoA/CoAsh derived from?

Answer 21

pantothenic acid (vitamin B5)

Question 22

what does CoA/CoAsh do?

Answer 22

serves as a cofactor in production of fatty acids, acetylcholine, heme, and cholesterol

Question 23

what is CoA/CoAsh required for?

Answer 23

required for energy conversion in the citrate cycle

Question 24

what is the explicit function of CoA/CoAsh?

Answer 24

removes acetyl group from lipoamide

Question 25

is a pantothenic acid deficiency common? why or why not?

Answer 25

rare, found in most foods inclduing chicken, yogurt, and avocado

Question 26

can CoA cross the cell membrane? what must be done if not?

Answer 26

nope; CoA must first be degraded by enzymes to pantothenic acid, which travels through the circulatory system and can cross cell membranes; once inside the cell the pantothenic acid is converted back to CoA by ATP and cysteine addition

Question 27

what is TPP?

Answer 27

thiamine pyrophosphate

Question 28

where is TPP derived from?

Answer 28

thiamine (vitamin B1)

Question 29

what happens to TPP?

Answer 29

it is absorbed in the gut and then phosphorylated

Question 30

what is the function of TPP?

Answer 30

pulls the acetyl group off of pyruvate

Question 31

what is a thiamine deficiency called?

Answer 31

Beriberi

Question 32

what are 3 symptoms of beriberi?

Answer 32

1. anorexia
2. cardiovascular problems
3. neurologic problems

Question 33

where can thiamine be found naturally?

Answer 33

in brown rice and fortified grains

Question 34

what does milling rice do?

Answer 34

removed the bran and thiamine

Question 35

what does thiaminase do? where is it found?

Answer 35

degrades thiamine; found in raw fish and raw silkworms

Question 36

where is alpha-lipoic acid/lipoamide found? (2)

Answer 36

1. synthesized in plants and animals
2. also found in broccoli, liver, spinach, and tomato

Question 37

what does lipoamide do?

Answer 37

provides reactive disulphide for redox reactions

Question 38

what is the explicit function of lipoamide?

Answer 38

transfers acetyl group to CoA (the ball in the mechanism)

Question 39

give the full reaction equation for step 0 of the citric acid cycle

Answer 39

pyruvate + CoA + NAD+ double arrow (reversible rxn) acetyl-CoA + CO2 + NADH + H+

Question 40

describethe 6 steps of the pyruvate dehydrogenase mechanism

Answer 40

1. pyruvate migrates from the cytoplasm to the mitochondria, where it is free floating until it meets E1
2. the acetyl group is transferred from pyruvate to TPP and CO2 leaves
3. the TPP with the acetyl group reacts with lipoamide and gives the acetyl group to the lipoamide
   4.the lipoamide then gives the acetyl group to CoA, making acetyl-CoA that leaves
4. lipoamide gives 2 H from its SH to reduce FAD to FADH2, which then gives its electron tto reduce NAD+ to NADH, which leaves
5. FADH2 is reoxidized back to FADH, which helps regnerate lipoamide for the next pyruvate

Question 41

describe how lipoamide acts like the ball in the ball and chain pyruvate dehydrogenase mechanism

Answer 41

the E2 lipoamide picks up the acetyl group from the E1 TPP and then delivers the acetyl group to CoA in the E2 catalytic domain (swings back and forth)

Question 42

what is oxidation?

Answer 42

loss of electrons

Question 43

what is reduction?

Answer 43

gain of electrons

Question 44

what is an oxidant? (3)

Answer 44

1. a compound that oxidizes other molecules
2. accepts electrons
3. is reduced

Question 45

what is a reductant? (3)

Answer 45

1. a compound that reduces other molecules
2. donates electrons
3. is oxidized

Question 46

what is reduction potential? (E)

Answer 46

the tendency of a molecule to gain electrons

Question 47

describe the free energy of the citric acid cycle and what this means?

Answer 47

highly exergonic! low delta G so very favorable

Question 48

what is reduction potential driven by?

Answer 48

free energy

Question 49

describe the relationship between reduction potential (E) and free energy (G); then state the sign for each in favorable and unfavorable reactions

Answer 49

inverse
favorable: +delta E, -delta G
unfavorable: -deltaE, +delta G

Question 50

how is reduction potential determined?

Answer 50

using half reactions, on a table where their E is listed

Question 51

describe coupled redox reactions

Answer 51

combining two half-reactions with a common intermediate

Question 52

what equation is used to related free energy to reduction potential?

Answer 52

the nernst equation, will be given

Question 53

give the general process for calculating change in reduction potential

Answer 53

1. combine 2 half reactions with a common intermediate
2. get the delta E for each half reaction from the chart
3. flip one of the reactions (all are given as reductions, need one to be an oxidation) and flip the sign of the delta E of whichever half reaction was flipped
4. add the two delta E values

Question 54

why do you not multiply the delta E with reaction stoichiometry?

Answer 54

the potential of the reaction did not change, just the amount of molecules in the reaction