Signal Transduction, Metabolism, PDH Complex, Citric Acid Cycle

Question 1

Why is epinephrine released?

Answer 1

“Fight or Flight” Stimulus

Question 2

Why is glucagon released?

Answer 2

low glucose levels

Question 3

Why is insulin released?

Answer 3

High glucose levels

Question 4

What are the steps for the G-protein system?

Answer 4

Binds to activated Receptor

GDP replaced with GTP

GTP-active protein binds to GTP-activated enzyme

cellular response

Question 5

What is a primary messenger?

Answer 5

Example: a hormone, released directly from environmental stimulus

Question 6

What is a secondary messenger?

Answer 6

A relay molecule that responds and reacts to the primary messenger

Question 7

What is involved with the β-adrenergic receptor and G protein?

Answer 7

Epinephrine

Question 8

cAMP functions as a second messenger activated by…

Answer 8

adenylate cyclase

Question 9

What does cAMP activate?

Answer 9

Protein Kinase A

Question 10

What does DAG activate?

Answer 10

Protein Kinase C

Question 11

What does IP3 activate?

Answer 11

Ca2+ to release from ER

Question 12

Only active as a dimer. Once dimerized, the subunits autophosphorylate one another

Answer 12

Tyrosine kinases (like insulin)

Question 13

How do signals get terminated?

Answer 13

1. Deactivate the secondary messenger
2. Deactivate the subunit responsible for synthesizing the secondary messenger
3. Dissociate the primary messenger from the receptor

Question 14

How does our body use free energy?

Answer 14

For movement

For molecular transport into and out of cells

For synthesis of bio-macromolecules

Note that all of these processes require ATP

Question 15

Exergonic reaction, cell respiration, hydrolysis of ATP

Answer 15

Catabolism

Question 16

Endergonic reaction, cell movements, active transport, synthesis of ATP

Answer 16

Anabolism

Question 17

What is the reaction for K_eq?

Answer 17

𝐾_eq = [products]/[reactants]

Question 18

What is the reaction for ∆G°′?

Answer 18

∆G°′ = −RT 𝑙n ([products]/[reactants])

R is the gas constant

T is the temperature in Kelvin

Question 19

If energy is released, and the reaction is spontaneous, then K_eq is…?

Answer 19

>1

Question 20

If energy is added, and the reaction is not spontaneous, then K_eq is…?

Answer 20

<1

Question 21

____ is intermediate in phosphoryl transfer potential, it can easily be replenished using compounds with higher phosphoryl transfer potential

rapidly consumed and replenished

Answer 21

ATP

Question 22

The oxidation of carbon fuels

Answer 22

catabolism

Question 23

An electron carrier in metabolism

Answer 23

NAD+

Question 24

Involved mainly in fatty acid synthesis

Answer 24

NADPH

Question 25

An electron carrier in metabolism, usually lower energy

Answer 25

FAD+

Question 26

A carrier of acyl groups

Answer 26

Co-enzyme A

Question 27

Derived from B Vitamins

Answer 27

Co-enzymes

Question 28

How are metabolic processes regulated?

Answer 28

1. Control the amount of enzyme (kinetics)
2. Control the catalytic activity of the enzyme (allosterism, phosphorylation, etc.)
3. Control accessibility of substrates (membrane compartmentalization)

Question 29

What are the fates of pyruvate?

Answer 29

the fate of pyruvate can be lactic acid or ethanol (depending on organism) if cell is anaerobic or acetyl CoA if the cell is aerobic.

Question 30

What are the 3 Steps for conversion of pyruvate to acetyl CoA?

Answer 30

1) decarboxylation, 2) oxidation, 3) CoA transfer

Question 31

At what point is conversion of Pyruvate irreversible?

Answer 31

When it’s converted into acetyl CoA

Question 32

E3 complex activation

Answer 32

Inhibited by NADH; Activated by NAD+

Question 33

E2 complex activation

Answer 33

Inhibited by Acetyl CoA; Activated by CoA

Question 34

E1 complex: PDK/PDP activation

Answer 34

Inhibited by ATP; activated by ADP via phos/dephos

Question 35

What cofactor accepts the acetyl group from pyruvate?

Answer 35

Thiamine pyrophosphate (TPP)

Question 36

What cofactor transfers the acetyl group from TPP to CoA?

Answer 36

Lipoic Acid

Question 37

What are E3 cofactors?

Answer 37

FAD, NAD+

Question 38

E2 is allosterically inhibited by

Answer 38

high acetyl-CoA

Question 39

E3 is allosterically inhibited by

Answer 39

high NADH

Question 40

The E1 subunit of the PDC is regulated through

Answer 40

phosphorylation/dephosphorylation

Question 41

What is the overall reaction for the CAC?

Answer 41

acetyl-CoA + 3 NAD+ + FAD + ADP + Pi → 2 CO2 + 3 NADH + FADH2 + ATP

Question 42

What step in the citric acid cycle is this?

Answer 42

Step 1

Question 43

What enzyme is used in this step of the citric acid cycle?

Answer 43

Citrate Synthase

Question 44

What step in the citric acid cycle is this?

Answer 44

Step 2

Question 45

What enzyme is used in this step of the citric acid cycle?

Answer 45

Acconitase

Question 46

What step in the citric acid cycle is this?

Answer 46

Step 3

Question 47

What enzyme is used in this step of the citric acid cycle?

Answer 47

isocitrate dehydrogenase

Question 48

What step in the citric acid cycle is this?

Answer 48

Step 4

Question 49

What enzyme is used in this step of the citric acid cycle?

Answer 49

a-ketoglutarate dehydrogenase

Question 50

What step in the citric acid cycle is this?

Answer 50

Step 5

Question 51

What enzyme is used in this step of the citric acid cycle?

Answer 51

succinyl CoA synthetase

Question 52

What step in the citric acid cycle is this?

Answer 52

Step 6

Question 53

What enzyme is used in this step of the citric acid cycle?

Answer 53

succinate dehydrogenase

Question 54

What step in the citric acid cycle is this?

Answer 54

Step 7

Question 55

What enzyme is used in this step of the citric acid cycle?

Answer 55

fumarase

Question 56

What step in the citric acid cycle is this?

Answer 56

Step 8

Question 57

What enzyme is used in this step of the citric acid cycle?

Answer 57

malate dehydrogenase

Question 58

Isocitrate Dehydrogenase activation

Answer 58

activate with ADP and NAD+/inhibit with ATP and NADH

Question 59

a-ketoglutarate dehydrogenase activation

Answer 59

activate with ADP and NAD+/inhibit with ATP and NADH and succinyl CoA

Question 60

Where in the citric acid cycle is ATP produced?

Answer 60

Step 5

Question 61

Where in the citric acid cycle is NADH produced?

Answer 61

Steps 3, 4, & 8

Question 62

Where in the citric acid cycle is FADH2 produced?

Answer 62

6

Question 63

The primary control points within CAC are which two enzymes that catalyze oxidative decarboxylations?

Answer 63

Isocitrate dehydrogenase

α-ketoglutarate dehydrogenase

Question 64

Why isn’t the first step (ie. citrate to isocitrate) a regulatory step?

Answer 64

• This step is readily reversible
• Citrate is a signal molecule that can go into cytoplasm to inhibit PFK
• Citrate also serves as source of Acetyl-CoA in fatty acid synthesis