MGD 1- Proteins

Question 1

In what part of the cell does rRNA synthesis occur?

Answer 1

Nucleus / nucleolus

Question 2

Why do mitochondria contain ‘cristae’?

Answer 2

To maximise the surface area of the inner mitochondrial membrane, for maximum ATP synthesis.

Question 3

What are ribosomes made up of?

Answer 3

Proteins and rRNA molecules

Question 4

What type of ribosomes do bacteria and archaea have?

Answer 4

70S = 30S + 50S

Question 5

What type of ribosomes do eukaryotes have?

Answer 5

80S = 40S + 60S

Question 6

Which organelle performs glycosylation of proteins and lipids?

Answer 6

Golgi

Question 7

Which Golgi cisternae faces the rER?

Answer 7

Cis

Question 8

Which Golgi cisternae faces the plasma membrane?

Answer 8

Trans

Question 9

Why is glucose a ‘polar’, soluble molecule?

Answer 9

Contains -OH (hydroxyl) groups which can form bonds with water molecules

Question 10

Why is palmitate a ‘non-polar’, insoluble molecule?

Answer 10

Does not contain any -OH (hydroxyl) groups, so cannot interact with water molecules

Question 11

Which molecules are more soluble: polar or non-polar? Why?

Answer 11

Polar, as they contain -OH (hydroxyl) groups which can interact with water molecules

Question 12

What is an amphipathic molecule?

Answer 12

A molecule with both polar and non-polar regions

Question 13

Which protein isomer is found naturally?

Answer 13

L-isomer

Question 14

Is a strongly acidic protein is likely to have a high pK or low pK value?

Answer 14

Low pK

Question 15

What is physiological pH?

Answer 15

7.4

Question 16

What is the ‘Isoelectric point’ of a protein?

Answer 16

The pH at which there is no net charge on the protein.

Question 17

Do acidic or basic amino acids become positively charged?

Answer 17

Basic amino acids become positively charged

Question 18

Do acidic or basic amino acids become negatively charged?

Answer 18

Acidic amino acids become negatively charged

Question 19

Which protein terminal is synthesised first?

Answer 19

N-terminal

Question 20

What are the 2 secondary structures of a protein?

Answer 20

1- alpha helix

2- beta sheet

Question 21

How many amino acids are required for 1 turn of an alpha helix?

Answer 21

3.6 AA

Question 22

What is the height (nm) of 1 turn of an alpha helix?

Answer 22

0.54 nm

Question 23

Which 2 amino acids are ‘alpha helix breakers’?

Answer 23

Proline and Glycine

Question 24

What is the distance (nm) between amino acid residues in a beta-sheet?

Answer 24

0.35 nm

Question 25

What are the 4 main ways to denature a protein?

Answer 25

1- Heat
2- pH
3- Detergent
4- Reducing agent

Question 26

How does heat often denature proteins?

Answer 26

Heat increases the kinetic energy of the molecules, breaking weak hydrogen and ionic bonds, unfolding the protein.

Question 27

How does a change in pH often denature proteins?

Answer 27

This will alter the ionisation states of the amino acids, breaking ionic and hydrogen bonds, unfolding the protein

Question 28

How do detergents denature proteins?

Answer 28

They disrupt the hydrophobic interactions within a protein

Question 29

Give an example of a reducing agent:

Answer 29

Beta-mercaptoethanol

Question 30

How do reducing agents denature proteins?

Answer 30

They break covalent disulphide bonds

Question 31

What is a ‘transmissable spongiform encephalopathy’?

Answer 31

A prion disease which affects the brain and nervous system

Question 32

Give 3 examples of transmissable spongiform encephalopathies:

Answer 32

1- Bovine spongiform encephalopathy (BSE)
2- Creutzfeld-Jakob Disease (CJD)
3- Kuru

Question 33

Define amyloid fibrils:

Answer 33

Misfolded insoluble form of a normally soluble protein, which aggregates and is resistant to degradation.

Question 34

What type of protein assists the folding of other proteins?

Answer 34

Chaperone proteins

Question 35

What is the small conformational change caused when oxygen binds to haem in haemoglobin?

Answer 35

The Fe atom is pulled into the plane of the porphyrin ring

Question 36

How many haem groups are in haemoglobin?

Answer 36

4

Question 37

How many haem groups are in myoglobin?

Answer 37

1

Question 38

What is the function of myoglobin?

Answer 38

To store O2 in muscle

Question 39

What is the shape of a Myoglobin O2-binding curve?

Answer 39

Hyperbolic

Question 40

What is the shape of a Haemoglobin O2-binding curve?

Answer 40

Sigmoidal

Question 41

Why does Haemoglobin have a sigmoidal O2-binding curve?

Answer 41

As it exhibits co-operative binding of O2 (Must change from low-affinty T state, to high-affinity R state)

Question 42

What is the T state of Haemoglobin?

Answer 42

The tense state of Haemoglobin is deoxyhaemoglobin, when it has low affinity for oxygen.

Question 43

What is the R state of Haemoglobin?

Answer 43

The relaxed state of Haemoglobin is oxyhaemoglobin, when it has high affinity for oxygen.

Question 44

Name 3 molecules which affect O2 binding to Haemoglobin:

Answer 44

1- H+
2-CO2
3- 2,3-BPG

Question 45

What is the full name of 2,3-BPG?

Answer 45

2,3-Bisphosphoglycerate

Question 46

Why does 2,3-BPG promote O2 release from Haemoglobin?

Answer 46

2,3-BPG binds to Haemoglobin where O2 usually binds

Question 47

Why does the amount of 2,3-BPG present increase at higher altitudes?

Answer 47

To promote O2 release at tissues, as ppO2 drops exponentially with increased altitude.

Question 48

How does adult haemoglobin differ from foetal haemoglobin, in BPG binding?

Answer 48

Foetal haemoglobin binds 2,3-BPG much less tightly than adult haemoglobin, allowing O2 to be readily passed from adult maternal Hb to foetal Hb.

Question 49

What is meant by the Bohr effect?

Answer 49

An increase of H+ / CO2 causes a decrease in pH, which lowers the affinity of Hb for O2, promoting deoxyhaemoglobin.

Question 50

How does the Bohr effect alter the Haemoglobin O2-binding curve?

Answer 50

It causes it to shift to the right

Question 51

How does an increase in pH alter the Haemoglobin O2-binding curve?

Answer 51

It causes it to shift to the left

Question 52

How does an increase in temperature alter the Haemoglobin O2-binding curve?

Answer 52

It causes it to shift to the right

Question 53

How does a decreased pH alter the Haemoglobin O2-binding curve?

Answer 53

It causes it to shift to the right

Question 54

How is the Bohr effect related to metabolically active tissues?

Answer 54

Metabolically active tissues produce more CO2, which causes an increased [H+] in the area, which produces the Bohr effect, promoting the dissociation of O2 from haemoglobin.

Question 55

At what point is CO poisoning usually fatal?

Answer 55

When COHb > 50%

Question 56

Why is CO poisoning often fatal?

Answer 56

CO binds to Hb much more readily than O2, so prevents O2 transport.

Question 57

What and where does the mutation occur which causes Sickle Cell Anaemia?

Answer 57

A>T, Glu6>Val in beta Hb chain

Question 58

What happens to HbS when in deoxygenated T state?

Answer 58

Forms hydrophobic interactions with adjacent chains, creating sticky hydrophobic pockets. These polymerise, distorting the RBC into a ‘sickle’ shape.

Question 59

Why is anaemia a common symptom of Sickle cell disease?

Answer 59

The constant sickling and un-sickling of RBCs reduce their life-span, increasing haemolysis, reducing the number of RBC’s in circulation

Question 60

What is the inheritance pattern of Sickle Cell Anaemia?

Answer 60

Autosomal recessive

Question 61

Why hasn’t Sickle Cell Anaemia been eradicated by natural selection?

Answer 61

Provides resistance against Malaria.

Question 62

Why is the amino acid change caused by Sickle cell disease so important?

Answer 62

The amino acid change from Glu to Val changes the polarity of the protein, as Glu is negatively charged, whereas Val is non-polar.

Question 63

What is alpha thalassaemia?

Answer 63

Decreased or absent alpha globin chain production

Question 64

How many genes are involved in the production of the alpha haemoglobin chain?

Answer 64

4 genes

Question 65

How many genes are involved in the production of the beta haemoglobin chain?

Answer 65

2 genes

Question 66

How many genes must be affected to cause chronic anaemia due to alpha thalassaemia?

Answer 66

3 genes

Question 67

How many genes must be affected in alpha thalassaemia to cause a miscarriage/stillbirth?

Answer 67

4 genes

Question 68

Why does alpha thalassaemia cause miscarriage, but beta thalassaemia does not?

Answer 68

Foetus’ require alpha chains to form their haemoglobin, they do not require beta chains until after birth.

Question 69

If only 1 alpha globin gene is affected in alpha thalassaemia, what are the symptoms?

Answer 69

No / little effect, as 3 normal genes

Question 70

If both genes are affected by beta thalassaemia, what treatment is required?

Answer 70

Lifelong blood transfusions.

Question 71

At what age does beta thalassaemia present?

Answer 71

~ 6 months after birth

Question 72

Which chains make up foetal haemoglobin?

Answer 72

alpha and gamma chains

Question 73

Sickle cell disease reduces the life span of a RBC from 120 days to what?

Answer 73

20 days

Question 74

What are the 3 main ways to increase the rate of a reaction?

Answer 74

1- Increase amount of enzyme present
2- Increase the concentration of reactants present
3- Increase the temperature

Question 75

When plotting Rate vs [Substrate], what kind of curve do MOST enzymes give?

Answer 75

Hyperbolic

Question 76

What is Km?

Answer 76

The substrate concentration at half the maximum rate of reaction.

Question 77

What is Vmax?

Answer 77

The maximum rate of reaction, when all enzyme active sites are saturated with substrate.

Question 78

Describe the affinity of an enzyme for its substrate if it has a high Km:

Answer 78

Low affinity - requires a higher substrate concentration to reach Vmax

Question 79

Describe the affinity of an enzyme for its substrate if it has a low Km:

Answer 79

High affinity - requires ow substrate concentration to reach Vmax.

Question 80

Name the 2 enzymes which can phosphorylate Glucose into Glucose 6-phosphate:

Answer 80

1- Hexokinase

2- Glucokinase

Question 81

Which enzyme is necessary for the 1st step in glycolysis, present in most tissues in the body?

Answer 81

Hexokinase

Question 82

Which enzyme is necessary for the 1st step of glycolysis to occur in the Liver?

Answer 82

Glucokinase

Question 83

Which has higher affinity for glucose: Hexokinase or Glucokinase?

Answer 83

Hexokinase

Question 84

What initiates the activity of Glucokinase (in the Liver)?

Answer 84

Feeding, causing an increase in blood glucose levels.

Question 85

What kind of curve is produced by the Lineweaver-Burk plot?

Answer 85

Linear line

Question 86

What value is given at the point where a Lineweaver-Burk plot crosses the x-axis?

Answer 86

-1/Km

Question 87

What value is given at the point where a Lineweaver-Burk plot crosses the y-axis?

Answer 87

1/Vmax

Question 88

What are the 2 types of reversible enzyme inhibitors?

Answer 88

1- Competitive

2- Non-competitive

Question 89

How does a competitive inhibitor affect the Km and Vmax of an enzyme?

Answer 89

Km increases

Vmax unaffected

Question 90

How does a non-competitive inhibitor affect the Km and Vmax of an enzyme?

Answer 90

Km unaffected

Vmax decreases

Question 91

What are the 4 short-term ways to regulate an enzymes activity?

Answer 91

1- Change substrate/product concentration
2- Allosteric regulation
3- Covalent modification
4- Proteolytic activation

Question 92

What is allosteric regulation?

Answer 92

The binding of an activator/inhibitor not at the active site, to stabilise either the T or the R state, affecting the enzymes conformation. They exhibit positive co-operativity, as multiple subunits can be allosterically regulated, producing a sigmoidal curve.

Question 93

Phosphofructokinase can be allosterically regulated. Name an activator and an inhibitor found in the human body:

Answer 93

Activator: AMP, F-2,6-B
Inhibitor: ATP, Citrate, H+

Question 94

Does phosphorylation activate or inhibit glycogen breakdown?

Answer 94

Activate

Question 95

What is a kinase?

Answer 95

An enzyme which adds a phosphate group

Question 96

What is a phosphatase?

Answer 96

An enzyme which removes a phosphate group

Question 97

Define zymogen:

Answer 97

Inactive enzyme precursor

Question 98

What are the 2 long-term ways to regulate an enzymes activity?

Answer 98

1- Change rate of protein production

2- Change rate of protein degradation

Question 99

What is meant by ‘enzyme cascade’?

Answer 99

Succession of activation reactions following an initial stimulus

Question 100

Damage to endothelial blood vessel walls causes them to release…?

Answer 100

• ADP
• Endothelins
• Factor III

Question 101

What is the role of endothelins in the clotting cascade?

Answer 101

Stimulate vasoconstriction and cell division

Question 102

What is the role of Factor III in the clotting cascade?

Answer 102

Involved in the production of Thrombin from Prothrombin

Question 103

What is the role of Thrombin in the clotting cascade?

Answer 103

• Cleave Fibrinogen into Fibrin

- Activate co-factors

Question 104

Why is Ca2+ necessary for clot formation?

Answer 104

• Required to allow Factor with Gla domains to interact with damaged site
• Attracts -vely charged clotting factors out of the blood

Question 105

What 3 processes cause termination of clotting?

Answer 105

1- Digestion of clotting factors by proteases
2- Dilution of clotting factors y blood flow and removal by Liver
3- Specific inhibitors

Question 106

What is required to breakdown the fibrin clot?

Answer 106

Plasmin

Question 107

What is the zymogen of Plasmin?

Answer 107

Plasminogen

Question 108

Defective Factor VIII causes which type of Haemophilia?

Answer 108

Haemophilia A