Lecture 4- Energy Metabolism

Question 1

What are the two main categories of chemical reactions?

Answer 1

Catabolism and anabolism

Question 2

Define catabolism

Answer 2

Metabolic reactions break down molecules/extract energy

Question 3

Define anabolism

Answer 3

Metabolic reactions synthesize building blocks to produce new molecules

Question 4

Define photosynthesis

Answer 4

Plants use light energy (sun) to produce carbohydrates from CO2 and H2O

Question 5

Define chemical energy

Answer 5

Energy contained in the bonds between atoms of a molecule

Question 6

Our bodies extract energy in the form of _____?

Answer 6

ATP

Question 7

What are the byproducts of glucose?

Answer 7

CO2 and H2O

Question 8

What are the two high energy electron shuttles?

Answer 8

NAD+ and FAD

Question 9

What 2 carriers carry high-energy electrons to the electron transport chain in cellular respiration

Answer 9

NADH and FADH2

Question 10

How many steps does the complete breakdown of CO2 and H2O take?

How much ATP is generated?

Answer 10

30 steps

30 ATP

Question 11

When completely oxidized, what does each glucose molecule yield?

Answer 11

CO2, H2O, and ATP

Question 12

What are the 4 paths that cells can extract energy from carbs through?

Answer 12

1. Glycolysis
2. Pyruvate to acetyl CoA
3. Citric acid cycle
4. Electron transport chain

Question 13

Which step(s) take place in the cytosol and which take place in the mitochondria?

Answer 13

Glycolysis- cytosol

Pyruvate to acetyl CoA, Citric acid cycle, Electron transport chain- mitochondria

Question 14

What is glucose made of?

What does glucose split into?

Answer 14

Six carbon atoms

Two three-carbon pyruvate molecules

Question 15

Does glycolysis require oxygen?

Answer 15

No, the process can be anaerboic

Question 16

How much ATP is required in Glycolysis? How much is produced?

Answer 16

Uses 2 ATP and produces 4 ATP
Net ATP=2

Question 17

Where are high energy electrons transferred to in Glycolysis?

What is this converted to?

Answer 17

NAD+

NADH

Question 18

What 2 things can pyruvate be converted to?

Answer 18

Acetyl CoA or lactate

Question 19

What determines the fate of what pyruvate converts to?

Answer 19

Oxygen supply

Question 20

If oxygen is lacking, what does pyruvate convert to?

Answer 20

Lactate

Question 21

Why does the body use lactate instead of acetyl CoA?

Answer 21

Makes ATP faster from lactate molecules that liver cells convert back to glucose

Question 22

If oxygen is readily avaible, what does pyruvate convert to?

Answer 22

Acetyl CoA

Question 23

When pyruvate is converted to acetyl CoA, how many carbons are lost?

Answer 23

2 carbons through CO2

Each pyruvate loses one carbon through CO2

Question 24

Is the process of pyruvate to acetyl CoA reversible?

Answer 24

NO, acetyl CoA cannot exit via the mitochondrial membrane- must enter citric acid cycle in mitochondria

Question 25

What is the first step in the citric acid cycle?

Hint: what 4 carbon structure combines with the conversion of pyruvate

Answer 25

4 carbon Oxaloacetate combines with 2 carbon acetyl CoA to form 6 carbon citrate (citric acid)

Question 26

What is the second step of the citric acid cycle?

Hint: the carbons from the conversion of pyruvate combine with the input of cellular respiration

Answer 26

2 carbon atoms from acetyl CoA combine with O2 to form CO2

Question 27

What are the products of the citric acid cycle?

Answer 27

-1 GTP which can produce 1 ATP
-3 NADH which go to ETC
-1 FADH2 which goes to ETC
-Oxaloacetate is regenerated

Question 28

How many times does the citric acid cycle occur?

Answer 28

Twice. One glucose molecule produces 2 acetyl CoA molecules which each go through the citric acid cycle

Question 29

How does the electron transport chain function?

Answer 29

NADH and FADH2 deliver high energy electrons that will travel along the ETC and give up energy to power the production of ATP

Question 30

Where does the electron transport chain take place?

Answer 30

Inner mitochondrial membrane

Question 31

What will happen is oxygen cannot accept energy depleted electrons and hydrogens?

Answer 31

ATP production will stop and halt body functions which leads to death

Question 32

How is an electrochemical gradient formed in the ETC?

Answer 32

Electrons move down the chain from high to low energy/release energy. Some energy is used to pump H+ ions out of matrix/into inter membrane space

Question 33

How is ATP synthase powered in the ETC?

Answer 33

H+ ions flow down the gradient

Question 34

How many ATP molecules can be produced per glucose molecule?

Answer 34

25 ATP

Question 35

What enzyme breaks lipids into glycerol and fatty acids?

What happens to the glycerol?
What happens to the fatty acids?

Answer 35

Lipase

-Glycerol goes to glycolysis due to carbon
-Fatty acids undergo betaoxidation to be made into acetyl CoA

Question 36

What is betaoxidation? Where does it take place?

Answer 36

Breakdown of fatty acids into acetyl CoA in the mitochondria

Question 37

What substance transports fatty acids across the mitochondrial membrane?

Answer 37

Caritine

Question 38

Although the body prefers to use carbs and fats to make ATP, when would the body elect to use proteins?

Answer 38

During a period of starvation. Body breaks down proteins and extracts ATP from amino acids

Question 39

What is deamination and why does it ocurr?

Answer 39

Body cannot break down amino group. Deamination removes amino group and is excreted in urine

Question 40

What happens to the carbon skeleton that does not undergo deamination?

Answer 40

-Enter catabolic pathway
-R-groups determine where it enters and affects the amount of ATP produced

Question 41

What is the respiratory quotient (RQ) and how is it calculated?

Answer 41

-Index of which nutrient is being used by the body to make ATP
-Calculated by the volume of CO2 exhaled divided by the volume of O2 used

Question 42

What are the RQ values for carbohydrates, protein, and fat?

Answer 42

Carbs = 1.0
Protein = 0.8
Fat = 0.7

Question 43

Why is the RQ value larger for carbs compared to fats/amino acids?

Answer 43

Carbs can use anaerobic and aerobic pathways. Don’t require O2 so the denominator is less. Fats/carbs mostly use aerobic pathways so denominator is larger, making RQ value smaller

Question 44

What is creatine made of?
Where is it synthesized and stored?
Where is it excreted?

Answer 44

Amino acids
Synthesized in liver
Stored in muscles
Excreted in urine

Question 45

When is creatine phosphate beneficial?

Answer 45

First 10 seconds of activity
Better for anaerobic work outs like weightlifting

Question 46

Why does the RQ value decrease significantly after 60 seconds of activity?

Answer 46

1. Glucose levels are depleted and must rely on fats/proteins
2. Intensity of activities decreases with lactic acid build up

Question 47

What are the various metabolic pathways used by the body to make ATP?

Answer 47

Carbs: Glycolysis, acetyl CoA, citric acid cycle, ETC
Fats: Beta-oxidation
Proteins: Deamniation

Question 48

What is common between the breakdown of carbs, fat, and proteins? What is different?

Answer 48

-Citric acid chain and ETC for all three
-Deamination for proteins
-Beta-oxidation for fats

Question 49

What is the connection between metabolism and respiration?

Answer 49

O2 is the final electron acceptor and CO2 is produced when pyruvate converts into acetyl CoA and also during the citric acid cycle. All carbons are used from carbs, proteins, or fats

Question 50

What fuels does the body use for different types of physical activities?

Answer 50

-Carbs/fats at rest (-10-0)
-Followed by creatine phosphate for initial burst of activity (0-10 secs)
-Continues with carbs for anaerobic (10-60 secs) until body reaches fatigue and returns to fats/aerobic breakdown (60+ secs)

Question 51

Why does the RQ values indicate the type of activity and substrate used to make ATP?

Answer 51

The type of substrate used during different activities will affect the RQ value
Carbs-1.0, proteins-0.8, fats-0.7

Question 52

Which of the following metabolic pathways is unique to the catabolism of fat?

Glycolysis
Citric acid cycle
Electron transport chain
Beta oxidation

Answer 52

Beta oxidation

Question 53

Which of the following substrates would be used by the body to make ATP, if you reeled in a fish and the whole process took about 5 seconds?

Fats/carbs
Creatine phosphate
Carbohydrates

Answer 53

Creatine phosphate

Question 54

Mike has an RQ value of 0.8 and this may indicate?

-He is mainly metabolizing glucose
-He is using creatine phosphate
-He is mainly metabolizing proteins
-He is mainly metabolizing fats
-More than one answer is correct

Answer 54

More than one answer is correct

-Mainly metabolizing proteins (0.8)
-Using creatine phosphate for initial burst