2 - Lipids and Proteins in Membranes

Question 1

What is the function of a membrane?

Answer 1

• Selectively permeable barrier
• Communication
• Control of enclosed environment
• Recognition (signalling molecules)
• Signal generation, e.g electrical

Question 2

Are all membranes the same?

Answer 2

No, specialised for function, e.g mitochondria different to cell membrane. Different parts of same membrane can be different too

Question 3

What is the membrane composition (dry)?

Answer 3

• 60% protein
• 40% lipid
• 1-10% carbohydrate

Water makes up 20% wet weight

Question 4

What is the main property of membrane lipids that makes them suitable for their function?

Answer 4

Amphipathic

Question 5

What is the structure of a phospholipid?

Answer 5

Head: Small and polar. Can have small attachements, e.g choline

Tail: C14-C24, C16/18 most popular so uniform thickness. Unsaturated bonds, cis, cause kink to increase fluidity

Question 6

What is the exception to the phospholipid structure?

Answer 6

Sphingomyelin. Not based on glycerol.

Question 7

How do you make a glycolipid?

Answer 7

Take of phosphocholine head and replace with sugar.

Question 8

How do lipids arrange themselves in water?

Answer 8

Question 9

How do phospholipids move in the membrane?

Answer 9

Question 10

How are membranes kept dynamic?

Answer 10

Cholesterol and cis bonds.

Reduce phospholipid packing

Question 11

What is the structure of cholesterol and what is it’s function?

Answer 11

Regulate fluidity. Need in diet for membrane integrity.

Question 12

How do proteins move and how can they be restricted?

Answer 12

• Everything but flip-flop (too large, need lots of KE and wouldnt do function, e.g LGIC wrong way)
• Aggregates
• Bound to cytoskeleton
• Cell adhesion
• High cholesterol areas

Question 13

What is the evidence for membrane proteins?

Answer 13

• Facilitated diffusion
• Ion gradients
• Specificity of cell responses
• Freeze fracture (heavy metal, snow drift EM, E AND P FACE)
• Fractionation and Gel electrophoresis

Question 14

What types of proteins are in the membrane and how are they removed?

Answer 14

Peripheral: Associated by H-bonds and electrostatic attractions. Removed by pH or ionic change, e.g salt wash

Integral: Associated with hydrophobic area. Removed by agents that compete for non-polar interactions and destroy membrane, e.g solvent/detergent

Question 15

What is hydropathy?

Answer 15

Can tell shape of membrane protein, hydrophobic parts in membrane and hydrophilic out

Question 16

What is toplogy of membrane proteins?

Answer 16

Membrane proteins always orientated one way for efficiency

Question 17

What does the erythrocyte skeleton consist of?

Answer 17

A rigid lattice of long spectrin molecules adhered to transmembrane proteins by peripheral attachment proteins, preventing lysis

Question 18

How can you tell what membrane proteins are in the erythrocyte membrane?

Answer 18

Ghost membranes. Only transmembrane are Glycophorin A and Band 3

Question 19

What is spectrin?

Answer 19

Tetramer protein of 2 A and 2 B. Tethered to cell membrane to maintain integrity

Question 20

What are two types of haemolytic anaemias due to poor functioning of the cytoskeleton?

Answer 20

• Hereditary Spherocytosis - Lack of spectrin so cells appear spherical. More prone to lysis, cleared by spleen
• Heriditary Elliptocytosis - Defective spectin, heterotetramers cannot form so cells are fragile and rugby ball shaped, lysis

Treatment: Blood transfusion

Question 21

Why is the membrane asymmetrical?

Answer 21

Different compositions and functions

Question 22

How are secretory proteins synthesised?

Answer 22

Question 23

How are proteins for the inside of the cell made?

Answer 23

In the ribosome in the cytoplasm, there is no signal sequence

Question 24

How are membrane proteins produced?

Answer 24

• Same as secretory proteins
• Hydrophobic stop transfer signal reached
• Ribosome detaches and completes synthesis in cytoplasm
• ER –> Cis Golgi –> Trans Golgi –> Vesicle –> Fuse with membrane, same as before

Question 25

What determines where N and C terminal are?

Answer 25

Signal Peptidase: N in, C out

No cleavage: C in, N out

Question 26

What is the role of band 3 and glycophorin A?

Answer 26

Integral proteins that prevent flip flop rotation

Question 27

What property does spectrin give erythrocytes?

Answer 27

Allows them to be rigid but flexible, holding their shape

Question 28

What do ankyrin and band 4.1 do?

Answer 28

Attach spectrin to integral proteins, restricting lateral mobility

Question 29

How do membrane bilayers form in water?

Answer 29

• Liposomes
• Form spontaneously
• Non covalent vdw forces between hydrophobic tails
• Hydrogen bonds between hydrophilic heads