Chapter 9 - Metabolism

Question 1

What is the definition of metabolism?

Answer 1

any chemical process that happens in your body

Question 2

What are catabolic reactions?

Answer 2

reactions that breakdown and produce energy

Question 3

What are anabolic reactions?

Answer 3

reactions that build up and use energy

Question 4

What is ATP to the cell?

Answer 4

energy-currency

Question 5

Can ATP be stored?

Answer 5

No, it must constantly be made

Question 6

What does ATP stand for?

Answer 6

adenosine triphosphate

Question 7

What process does ATP’s phosphates go through that releases energy?

Answer 7

phosphate uncoupling

Question 8

What is adenine attached to?

Answer 8

ribose

Question 9

By themselves, what are the phosphates that make up ATP?

Answer 9

inorganic

Question 10

What happens when ATP is “drawn down”?

Answer 10

converts to ADP

Question 11

What happens when ADP is “charged up”?

Answer 11

converts back to ATP

Question 12

What is the function of enzymes?

Answer 12

speed up reactions

Question 13

Enzymes are almost always what?

Answer 13

proteins

Question 14

What are coenzymes?

Answer 14

they work with enzymes

Question 15

What are some examples of coenzymes and what do they do?

Answer 15

NADH and FADH2

deliver electrons to the ETC

Question 16

What vitamins act as coenzymes?

Answer 16

B vitamins

Question 17

What are cofactors?

Answer 17

inorganic coenzymes

Question 18

What controls REDOX reactions?

Answer 18

enzymes

Question 19

When is something oxidized?

Answer 19

loses electrons
loses hydrogen
gains O2

Question 20

When is something reduced?

Answer 20

gains electrons
gains hydrogen
loses O2

Question 21

What is the oxidized form of Nicotinamide adenine dinucleotide?

Answer 21

NAD+

Question 22

What is the reduced form of nicotinamide adenine dinucleotide?

Answer 22

NADH2

Question 23

What is the oxidized form of flavin adenine dinucleotide?

Answer 23

FAD

Question 24

What is the reduced form of flavin adenine dinucleotide?

Answer 24

FADH2

Question 25

What is a component of nicotinamide adenine dinucleotide?

Answer 25

niacin

Question 26

What is a component of flavin adenine dinucleotide?

Answer 26

riboflavin

Question 27

What are the four steps of cellular respiration for carbohydrates?

Answer 27

glycolysis
transition reaction
citric acid cycle
ETC

Question 28

What is the main goal of glycolysis?

Answer 28

break down 6C glucose to 2 molecules of 3C pyruvate

Question 29

What are the byproducts of carbohydrate glycolysis?

Answer 29

2 molecules of pyruvate
NADH+H
2 net molecules of ATP

Question 30

Where does glycolysis take place in the cell?

Answer 30

cytoplasm

Question 31

What does NADH+H act as?

Answer 31

Electron deliverer for ETC

Question 32

What must be present for pyruvate to enter the mitochondria?

Answer 32

oxygen

Question 33

What happens after glycolysis if oxygen is present?

Answer 33

transition reaction in mitochondria

Question 34

What happens after glycolysis if oxygen is not present?

Answer 34

lactic fermentation

Question 35

What is lactic acid and when do you feel it?

Answer 35

toxic byproduct of anaerobic respiration

during exercise - THE BURN

Question 36

What does anaerobic respiration/lactic fermentation allow for?

Answer 36

NADH to be converted to NAD+

allows glycolysis to restart

Question 37

What is the energy output of anaerobic respiration/lactic fermentation?

Answer 37

2 ATP per glucose molecule

Question 38

Where is lactic acid recycled?

Answer 38

liver

Question 39

What is the process of lactic acid recycling called?

Answer 39

Cori cycle

Question 40

What is the main goal of the transition reaction of carbohydrates?

Answer 40

convert pyruvate to acetyl-CoA

Question 41

Where does the transition reaction occur in the cell?

Answer 41

mitochondria

Question 42

What does the transition reaction require?

Answer 42

oxygen

Question 43

Other than the conversion of pyruvate to acetyl-CoA, what else does the transition reaction produce?

Answer 43

NADH+H (for ETC)

Carbon dioxide

Question 44

What is unique about the

carbohydrate conversion to acetyl-CoA?

Answer 44

irreversible reaction

Question 45

What are acetyl-CoA’s options (carbs)?

Answer 45

• Make ATP by entering the citric acid cycle and finishing with ETC
• Be converted to fat storage
• Be converted to ketone bodies

Question 46

What are the necessary conditions for acetyl-CoA to make ATP through the citric acid cycle and later ETC?

Answer 46

only happens if body has enough carbs in storage

Question 47

What are the necessary conditions for acetyl-CoA to be converted to fat storage?

Answer 47

only happens if the body does not require additional ATP

Question 48

What are the necessary conditions for acetyl-CoA to be converted to ketones?

Answer 48

only happens if the body does not have enough carbs available

Question 49

What can be used to make energy?

Answer 49

ketone bodies

Question 50

What is required for acetyl-CoA to enter the citric acid cycle?

Answer 50

can only enter if oxaloacetate is present

Question 51

What does the binding of acetyl-CoA and oxaloacetate make?

Answer 51

citrate

Question 52

What is oxaloacetate made from?

Answer 52

carbs

Question 53

If carbs aren’t available, what doesn’t happen?

Answer 53

Krebs

Question 54

What is the goal of the citric acid cycle?

Answer 54

produce coenzymes
NADH+H
FADH2

Question 55

What else does the citric acid cycle produce?

Answer 55

potential ATP (guanine triphosphate)
carbon dioxide

Question 56

What does the citric acid cycle not require?

Answer 56

oxygen

Question 57

What is another name for the electron transport chain?

Answer 57

oxidative phosphorylation

Question 58

Where does the energy come from to form ATP in the ETC?

Answer 58

NADH+H and FADH2

Question 59

During the ETC, what happens to NADH+H?

Answer 59

oxidized to form NAD+

Question 60

During the ETC, what happens to FADH2?

Answer 60

oxidized to form FAD

Question 61

What minerals does the ETC require?

Answer 61

iron and copper

Question 62

Iron is the component of what?

Answer 62

cytochromes

Question 63

During the ETC, how is oxygen used?

Answer 63

combined with H+ and electrons to form water

Question 64

Where is the most ATP generated?

Answer 64

ETC

Question 65

What does each component of a triglyceride turn into during cellular respiration?

Answer 65

glycerol turns into pyruvate

fatty acids turn into acetyl-CoA

Question 66

What is another term for turning fat into ATP?

Answer 66

Beta-Oxidation

Question 67

What happens to fatty acid chains during beta-oxidation?

Answer 67

the even-numbered chain is cut into 2-carbon pieces

Question 68

What happens to the 2C pieces of a fatty acid chain during beta-oxidation?

Answer 68

each piece gets CoA to make an acetyl-CoA

Question 69

Other than acetyl-CoA, what else is made during beta-oxidation?

Answer 69

NADH+H and FADH2

Question 70

Why does fat yield more than 2x the energy than carbs and protein?

Answer 70

• more carbons to convert to acetyl-CoA

- have fewer oxygen molecules, which makes it easier to handle at a molecular level

Question 71

If carbohydrates are too low to generate oxaloacetate during the cellular respiration of fat, what happens?

Answer 71

1. citric acid cycle decreases
2. Beta-oxidation continues, causing buildup of acetyl-CoA
3. join together to form ketone bodies

Question 72

How does the production of ketone bodies affect the kidneys?

Answer 72

it is an acidic process, so it is hard on the kidneys as they buffer

Question 73

What other physical symptoms will someone experience during ketone body formation?

Answer 73

suppressed appetite

acetone leaves body (smells fruity)

Question 74

What happens to triglycerides during fasting?

Answer 74

they are broken down

Question 75

What does the breakdown of triglycerides trigger during fasting?

Answer 75

hormone-sensitive lipase

Question 76

What increases and decreases hormone-sensitive lipase?

Answer 76

increase- glucagon, growth hormone, and epinephrine

decrease-insulin

Question 77

During fasting, how are fatty acids transported to the mitochondria?

Answer 77

taken up by cells and shuttled into mitochondria via carnitine

Question 78

Where does protein metabolism take place?

Answer 78

liver

sometimes muscle

Question 79

Depending on the R-group, what can protein be turned into during cellular respiration?

Answer 79

glucose or acetyl-CoA

Question 80

Amino acids being used for fuel must first undergo what?

Answer 80

deamination

Question 81

What is required for deamination to take place?

Answer 81

vitamin B-6

Question 82

What is the result of amino acid deamination during cellular respiration?

Answer 82

carbon skeleton that is either gluco-genic or keto-genic

Question 83

What can glucogenic amino acids undergo?

Answer 83

gluconeogenesis

Question 84

Where does glucogenic amino acid gluconeogenesis take place

Answer 84

kidney

liver

Question 85

What does glucogenic amino acid gluconeogenesis require?

Answer 85

ATP
Biotin
Riboflavin
Niacin
B-6

Question 86

What happens to ketogenic amino acids?

Answer 86

use carbons to form acetyl-CoA

Question 87

What is the main pathway for alcohol metabolism?

Answer 87

alcohol dehydrogenase

Question 88

What is the first step in alcohol metabolism?

Answer 88

alcohol is converted to acetaldehyde

Question 89

For alcohol to be converted to acetyldehyde, what must be present?

Answer 89

ADH and NAD+

Question 90

What is the byproduct of alcohol conversion to acetaldehyde?

Answer 90

NADH+H

Question 91

What is the second step in alcohol metabolism?

Answer 91

acetaldehyde is converted to acetyl-CoA

Question 92

For acetaldehyde to be converted to acetyl-CoA, what must be present?

Answer 92

coenzyme A

aldehyde dehydrogenase

Question 93

What is the byproduct of acetaldehyde conversion to acetyl-CoA?

Answer 93

NADH+H

Question 94

If alcohol consumption is too high, what takes over?

Answer 94

MEOS

Question 95

If buildup of NADH is too much during alcohol metabolism, what happens?

Answer 95

acetyl-CoA can’t enter

acetyl-CoA is directed to fatty acid and triglyceride production

Question 96

What happens to metabolism during feasting?

Answer 96

fat tissue increases
insulin production increases
more glucose burned for energy
more glycogen
more protein and fat synthesis

Question 97

Where is excess consumed fat stored?

Answer 97

adipose tissue

Question 98

Excess protein consumption results in what?

Answer 98

amino acids in pool

fatty acid formation

Question 99

Carbohydrates consumed in excess will result in what?

Answer 99

-build glycogen stores
glucose for energy
fat synthesis

Question 100

What happens during fasting?

Answer 100

• body uses glycogen and fatty acids for fuel
• fat is still broken down and can’t be used to fuel nervous system or RBCs
• glycogen stores depleted
• body tissue broken down to make glucose

Question 101

During prolonged fasting, what happens?

Answer 101

• body protein depleted
• fatty acids can’t be used for gluconeogenesis
• sodium and potassium depleted and lost in urine with ketone bodies
• blood urea levels increase

Question 102

What are the body’s adaptations to survive fasting?

Answer 102

• slows metabolic rate to reduce energy requirements and lean body tissue breakdown
• allows nervous system to use more ketone bodies
• organ failure