MR S1

Question 0

What is the general composition of a membrane?

Answer 0

It varies between different membranes but the dry weight proportions are:
~40% lipid
~60% protein
~10% carbohydrate

Question 1

What are the functions of membranes?

Answer 1

Selectively permeable barrier
Control of the enclosed chemical environment
Communication
Recognition
Signal generation in response to stimuli

Question 2

In a hydrated membrane, what proportion of the weight is water?

Answer 2

~20%

Question 3

What does amphipathic mean?

Answer 3

Molecule contains both hydrophobic and hydrophilic areas.

Question 4

What is the structure of a phospholipid?

Answer 4

A glycerol molecule with two fatty acid side chains and a phosphate head

Question 5

What effect would a double bond in a fatty acid side chain have?

Answer 5

The chain would have a kink

Question 6

Describe the head chain of a phospholipid molecule

Answer 6

The head chain begins with a phosphate group which can have a variety of groups attached to it, for example:
Choline
Amine
Amino acid
Sugar

Question 7

Describe the side chains of a phospholipid molecule

Answer 7

Fatty acid chain length can be between C14 and C24
Most common chain lengths are C16 and C18
Cis double bond creates a kink

Question 8

What is a glycolipid?

Answer 8

Almost the same as a phospholipid, except the phosphate group is replaced with a sugar

Question 9

What are the types of glycolipid?

Answer 9

Cerebrosides

Gangliosides

Question 10

What is a cerebroside?

Answer 10

A glycolipid membrane molecule where the head group is a sugar monomer

Question 11

What is a ganglioside?

Answer 11

A glycolipid membrane molecule where the head group is an oligosaccharide

Question 12

How can individual phospholipid molecules move around the membrane?

Answer 12

Flip-flop
Lateral diffusion
Flexion
Rotation

Question 13

What is the effect on the membrane as a whole of more cis double bonds in phospholipids?

Answer 13

Increased space between molecules/reduced packing

Question 14

Describe the structure of cholesterol

Answer 14

Polar head group
Rigid planar steroid ring structure
Non polar hydrocarbon tail

Question 15

What is the effect of cholesterol in membranes?

Answer 15

Maintains membrane fluidity in cold temperatures by preventing phospholipids from clumping together
Maintains membrane integrity and rigidity at higher temperatures by interacting with the side chains of phospholipids

Question 16

Give an example of a phospholipid

Answer 16

Phosphtidylcholine

Question 17

How can membrane proteins move around a membrane?

Answer 17

Lateral diffusion
Rotation
Conformational change

NO FLIP FLOP

Question 18

What are the two types of membrane protein?

Answer 18

Integral - deeply embedded in the membrane

Peripheral - associated with the surface of the membrane

Question 19

Describe peripheral membrane proteins

Answer 19

Only bound to the surface of the membrane by electrostatic or hydrogen bond interactions
May be easily removed by changes in pH or ionic strength

Question 20

Describe intrinsic membrane proteins

Answer 20

Interact extensively with the lipid binding area of the phospholipid bilayer
Cannot be removed by pH or ionic manipulation, only by agents which compete for lipid interactions eg detergents

Question 21

Why is asymmetrical orientation of proteins important?

Answer 21

A protein which interacts with the extra cellular environment would need to be correctly orientated in order to perform it’s purpose eg an insulin receptor would need to have its insulin binding site on the extracellular side of the membrane

Question 22

What is the evidence for proteins in membranes?

Answer 22

Functional:
Ion gradients
Facilitated diffusion
Specificity of cell response

Biochemical:
Freeze fracture
Membrane fractionation
Gel electrophoresis

Question 23

What are some restraints on membrane protein mobility?

Answer 23

Lipid mediated effects eg proteins tend to separate out in cholesterol poor regions
Membrane protein associations
Association with extra membranous proteins eg cytoskeleton

Question 24

What types of amino acids are likely to be in a transmembranous domain of a protein?

Answer 24

HYDROPHOBIC
Small
Uncharged

Question 25

What are haemolytic anaemias? Give examples.

Answer 25

Diseases where there is reduced oxygen carried in the blood due to increased breakdown of red blood cells
Can have many causes eg hereditary spherocytosis

Question 26

Describe hereditary spherocytosis

Answer 26

Spectrin depleted by 40-50%
Erythrocytes round up
Less resistant to haemolysis
Cleared up by the spleen
Reduced erythrocyte lifespan
Inability of bone marrow to adequately compensate causes haemolytic anaemia

Question 27

Describe hereditary elliptocytosis

Answer 27

Defective spectrin formed
Unable to form stable heterotetramers
Fragile elliptoid cells
Reduced cell lifespan
Increased haemolysis
Bone marrow unable to adequately compensate
Anaemia

Question 28

What is passive transport reliant on?

Answer 28

Membrane permeability

Concentration gradient