IMMS: Week 5

Question 1

Give three examples of fatty acids

Answer 1

Oleic
Palmitic
Stearic

Question 2

Where is the electron transport chain locacted

Answer 2

Inner mitochondrial membrane

Question 3

What is contained in the inner mitochondrial membrane surface

Answer 3

Cytochromes

Question 4

What does a cytochrome contain

Answer 4

Iron and copper co-factors

Question 5

Describe what happens in the Electron transport chain

Answer 5

Check book

Question 6

How many molecules of ATP are produced for each molecule of NADH

Answer 6

2.5

Question 7

How many molecules of ATP are produced for each molecule of FADH2

Answer 7

1.5

Question 8

What is the overall reaction of aerobic respiration

Answer 8

C6H12O6 + 6O2 + 38ADP + 38 Pi -> 6CO2 + 6H20 + 34-38 ATP

Question 9

What do we have to assume about oxidative phosphorylation, glycolysis and kerb’s cycle to state 38ATP molecules are produced from them

Answer 9

That all NADH produced in glycolysis and Kreb’s cycle enter oxidative phosphorylation and ALL H+ are used in chemiosmosis

Question 10

Why does ketogenesis take place

Answer 10

Because some acetyl coA exceed the capacity of the Kreb’s cycle and so need to be used to make ketone bodies instead

Question 11

Were are ketone bodies produced

Answer 11

Mitochondrial matrix

Question 12

Describe the process of ketogenesis

Answer 12

Look in book

Question 13

What happens to acetoacetate after ketogenesis

Answer 13

It is converted to acetone and expired by the lungs

Question 14

What happens to the level of oxaloacetate when carbohydrate utilisation is low or deficient

Answer 14

Oxaloacetate levels will also be low

Question 15

What happens to acetoacetate and b-hydroxybutyrate after ketogenesis

Answer 15

It is used as fuel in many tissues

Question 16

What happens to acetoacetate and b-hydroxybutyrate in skeletal muscles

Answer 16

1. Taken into cytosol and into mitochondrial matrix
2. B-hydrobutyrate -> acetoacetate
3. Acetoacetate -> Acetoacetyl CoA
4. Acetoacetyl CoA -> Two molecules of Acetyl CoA
5. Acetyl CoA used in Kreb’s Cycle

Question 17

What converts acetoacetyl CoA to Acetyl CoA

Answer 17

Thiolase enzyme

Question 18

Why can’t the liver use ketones as a fuel

Answer 18

No presence of SUCCINYL COA which is needed to convert acetoacetate to acetoacetyl CoA

Can’t be used to produce Acetyl CoA

Question 19

How is ketogenesis controlled

Answer 19

By the rate of release of fatty acids from adipose tissue

Question 20

In what organ does ketogenesis take place

Answer 20

Liver

Question 21

What causes the rate of production of ketone bodies to increase

Answer 21

Decrease in carbohydrate stores

Question 22

How does diabetic ketoacidosis occur

Answer 22

From reduced supply of glucose and increased in fatty acid oxidation

Increased Acetyl CoA -> Increased Ketogenesis

Kettles are strong acids so this lowers blood pH

Question 23

What is the pH of ketone bodies

Answer 23

3.5

Question 24

What is the problem of diabetic ketoacidosis

Answer 24

Impairs ability for haemoglobin to bind to oxygen

Question 25

What are ROS

Answer 25

Reactive Oxygen Species:

Highly reactive oxygen containing compounds that are free radicals (unpaired electrons in their orbital)

Question 26

Why are radicals so reactive

Answer 26

Because they try to extract electrons from other compounds to fill their outer orbitals

Question 27

What is the most potent ROS

Answer 27

Hydroxyl

Question 28

Where are exogenous sources of ROS

Answer 28

UV, tobacco and drugs

Question 29

What are endogenous sources of ROS

Answer 29

NADPH and ECT

Question 30

How do Oxygen radicals form

Answer 30

Check book

Question 31

Why is H2O2 considered an ROS

Answer 31

Because it is readily converted to the OH radical in cells

Lipid soluble so can cause damage away from site of formation

Question 32

What compounds catalyse the formation of a hydroxyl radical from hydrogen peroxide

Answer 32

Fe2+ and Cu2+

Question 33

What is the reaction of formation of hydroxyl radicals from hydrogen peroxide

Answer 33

Fenton reaction

Question 34

Describe the Fenton Reaction

Answer 34

H2O2 + Fe2+ -> Fe3+ + OH- + OH (radical)

Question 35

What two reactions are found in the Haber-Weiss Reaction

Answer 35

Fenton Reaction

Haber-Weiss Reaction

Question 36

What two reactions do hydroxyl radicals initiate

Answer 36

Lipid Peroxides

Organic Radicals

Question 37

What compound do free radicals DAMAGE

Answer 37

Proteins, lipids, carbohydrates and nucleic acids

Question 38

What membranes do free radicals they damage

Answer 38

Cells
Nuclear
Mitochondrial
ER

Question 39

Is DNA affected by the hydroxyl radical

Answer 39

Yes, it damages DNA and causes mutations

Question 40

What are respiratory bursts

Answer 40

Immune system defence against bacteria

Question 41

When are ROS released by immune cells

Answer 41

Following phagocytosis

Question 42

How do ROS form through immune cells

Answer 42

1. NADPH oxidase reduces oxygen to superoxide

2. Superoxide is reduced to H2O2 -> OH radical

Question 43

What happens to ROS produced by immune cells

Answer 43

Myeloperoxidases combine H2O2 with CL- to produce CLO-

Question 44

What is CLO- needed for

Answer 44

Destroying bacteria by damaging bacterial cell membranes

Question 45

What enzyme converts superoxide to hydrogen peroxide and oxygen

Answer 45

Superoxide dismutase

Question 46

What enzyme catalyses conversion of hydrogen peroxide to water and oxygen

Answer 46

Catalase

Question 47

What is the role of catalase in the immune system

Answer 47

Protects WBCs against own rest bursts

Question 48

What enzyme catalyses the reduction of H2O2 to water and a disulphide

Answer 48

Glutathione Peroxidase

Question 49

What are two antioxidant vitamins

Answer 49

E and C

Question 50

Role of E

Answer 50

Protects against lipid per oxidation and stops free radical propagation in membranes

Question 51

Role of C

Answer 51

Reacts with superoxide and hydroxyl radical

Question 52

What is the Henderson Hasselbalch Equation

Answer 52

pH = pKa + log([HCO3-]/[CO2])

Question 53

What is the role of protein matrix of the bone

Answer 53

Buffer large amounts of H+ in patients with chronic acidosis

Question 54

What pH results in academia

Answer 54

Less than 7.35

Question 55

What pH results in alkalaemia

Answer 55

More than 7.45

Question 56

What PaCO2 level is a sign of respiratory acidosis

Answer 56

> 6 kPa

Question 57

What PaCO2 level is a sign of respiratory alkalosis

Answer 57

<4.5 kPa