Membrane Permeability and Transport

Question 1

What is a semi- permeable membrane?

Answer 1

A layer through which only allowed substances a can pass

Question 2

What types of molecules can pass through a phospholipid bilayer?

Answer 2

Hydrophobic, small, uncharged and polar molecules

Question 3

Why does glucose only pass through the phospholipid bilayer very slowly?

Answer 3

As it’s a large molecule

Question 4

Why can water pass through phospholipid bilayer easily?

Answer 4

Water diffuses across as a gas

Question 5

What is the affect of temperature on the movement of molecules

Answer 5

As temperature increases the movement of molecules increases

Question 6

What are 4 important roles of transport processes?

Answer 6

1. Maintenance of ionic composition
2. Maintenance of intracellular pH
3. Regulation of cell volume
4. Expelling of waste and toxic substances

Question 7

What types of transport has a negative value for Gibbs Free Energy?

Answer 7

PASSIVE

Question 8

What type of transport have a positive value for Gibbs Free Energy?

Answer 8

ACTIVE

Question 9

Why are Gated pores inefficient?

Answer 9

It takes a long time for the molecules to be transported

Question 10

Are Gated pores an example of active or passive transport

Answer 10

PASSIVE

Question 11

What are the different methods of facilitated diffusion?

Answer 11

Ligand Gated Ion Channels, Voltage Gated Ion Channels and protein Channels

Question 12

How do Voltage Gated Ion Channels work?

Answer 12

The positively charged amino acids residues in the protein channel are attracted to the opposite negative charges of the inside of the membrane so the Channels are closed. When depolarisation occur the now positive membrane repels the channel, causing it to open.

Question 13

What is membrane transport dependant on?

Answer 13

Concentration and membrane potential

Question 14

What is active transport?

Answer 14

The movement of ions or molecules against a concentration gradient using energy directly or indirectly from the hydrolysis of ATP

Question 15

What is a primary Active Transporter?

Answer 15

A transporter that uses ATP directly

Question 16

What does Uni-Transport mean?

Answer 16

Only one molecule at a time can be transported

Question 17

What is a Co-Transporter?

Answer 17

When more than one molecule can be transported at a time

Question 18

What type of transporter is the Sodium Glucose Cotransporter?

Answer 18

A symport co-transporter

Question 19

What is a symport transporter?

Answer 19

A co-transporter that transport the molecules in the same direction

Question 20

What is an Antiport co-transporter?

Answer 20

A co-transporter that transports molecules in opposite directions

Question 21

Give an example of an Antiport cotransporter

Answer 21

Sodium potassium ATPase pump

Question 22

What is the difference between a pump and a transporter?

Answer 22

A pump is found on the plasma membrane whereas a transporter is found in the membranes of organelles

Question 23

What is the most important mechanism for maintaining the resting potential of cells?

Answer 23

Potassium diffusion across Channels outside of the cell

Question 24

What is the resting potential of s cell?

Answer 24

-70mV

Question 25

How does the Na/K ATPase pump work?

Answer 25

It moves 3 Na ions out and 2 K ions in.

Question 26

What is the structure of the Na/K ATPase?

Answer 26

It has an alpha subunit where phosphorylation, movement of ions and blocking occurs.
There is also a beta subunit which glycoproteins are attached which anchor and direct pump to membrane surface.

Question 27

Why is the Na/K ATPase also called a P-Type ATPase

Answer 27

As ATP phosphorylate aspartate producing a phosphoenzyme intermediate

Question 28

What happens when the CFTR (cystic fibrosis transmembrane conductance regulator) stops working?

Answer 28

Chloride ions are not moved out of the cell and so they accumulate inside the cell, creating an electrochemical unbalance. The chloride can’t help produce mucus and so it’s harder to breath.

Question 29

What happens when the CFTR increases its function and what causes this?

Answer 29

More chloride ions leave the cell as so water water meaning that you become more dehydrated and get diarrhoea. This is caused by the cholera infection as it activates PKA which then activate the CFTR

Question 30

Why can Chloride, Sodium, Potassium and Calcium ions be classed as osmolytes?

Answer 30

As one Ion moves it takes 6 moles of water with it.

Question 31

What terms describes a transporter that results in a net change of charge?

Answer 31

Electrogenic

Question 32

Give 2 examples of acid extruded transporters

Answer 32

Na/H Exchanger (NHE) and the sodium bicarbonate cotransporter (NBC)

Question 33

Give an example of a base extruder

Answer 33

Cl/HCO3 Exchanger (anion Exchanger-AE)

Question 34

How does the Na/H Exchanger work?

Answer 34

Exchanges 1 extracellular sodium for one intracellular proton (electronetural 1:1 exchange) so makes the inside of the cell more basic

Question 35

Is the Na/H Exchanger a primary or secondary active transporter?

Answer 35

Secondary as it doesn’t use ATP directly

Question 36

How does the Sodium Bicarbonate transporter work?

Answer 36

It moves sodium and bicarbonate inside the cell and a proton and chloride Ion outside the cell. This makes the cell more basic

Question 37

How does the AE work?

Answer 37

It transports bicarbonate out of the cell and chloride into the cell. This makes the cell more acidic.

Question 38

What can a cell do to decrease swelling(?

Answer 38

It can transport ions outside of the cells so that water will follow out by osmosis, shrinking the cell

Question 39

What can a cell do to increase its size?

Answer 39

Transport ions into the cell, so that water moves in by osmosis causing the cell to swell to its original size.

Question 40

What are diuretic drugs used for?

Answer 40

Block transporters that reabsorbed sodium, so more sodium is lost in the urine. This means that more water follows the sodium into the urine, so you lose water. This helps to treat oedema

Question 41

Why is all the bicarbonate reabsorbed in the kidneys?

Answer 41

To retain the base when controlling cell pH levels

Question 42

Why is all the sodium reabsorbed in the kidneys?

Answer 42

Na/K ATPase pump sets up a low intracellular sodium concentration and so sodium moves back into cells and so it’s all reabsorbed.