5- Plasma membranes

Question 1

What type of lipid forms a bilayer in cell surface membranes?

Answer 1

Phospholipid

Question 2

How are phospholipids arranged in the phospholipid bilayer?

Answer 2

With their polar heads facing outwards and their non-polar tails facing inwards

Question 3

What is the function of the phospholipid bilayer?

Answer 3

To prevent the movement of polar substances through the membrane

Question 4

Where is cholesterol found in the cell surface membrane?

Answer 4

Between, and bound to, the tails of the phospholipids

Question 5

What is the purpose of cholesterol in the cell surface membrane?

Answer 5

To cause the phospholipids to pack more closely together, making the membrane less fluid and more rigid

Question 6

What type of protein would a channel protein be?

Answer 6

Intrinsic

Question 7

What is the function of a channel protein?

Answer 7

Allows the movement of smaller charged molecules through the membrane via diffusion (different ones for different particles)

Question 8

What is the function of a carrier protein?

Answer 8

Moves larger molecules through the membrane via facilitated diffusion or active transport

Question 9

How do carrier proteins work?

Answer 9

When a molecule enters them, they change shape (this can either be using the molecule’s own energy in facilitated diffusion or the cell’s energy in active transport), allowing the molecule through the phospholipid bilayer and into the cell

Question 10

What is a glycoprotein?

Answer 10

A protein with a polysaccharide chain attached

Question 11

What are 4 functions of glycoproteins/glycolipids?

Answer 11

Stabilise the membrane by forming hydrogen bonds with water molecules, act as antigens, receptors in cell signalling, site where hormones and drugs bind to the cell

Question 12

How thick is the plasma membrane?

Answer 12

Around 7nm

Question 13

What is a fluid mosaic structure?

Answer 13

One which is constantly moving and made up of many small pieces (i.e the cell surface membrane)

Question 14

What are 3 examples of attachments that plasma membranes allow to occur?

Answer 14

Ribosomes to Rough ER, enzymes to cell surface membrane and to inner membrane of mitochondria

Question 15

Where are proteins for the cell surface membrane made?

Answer 15

Ribosomes on the Rough ER

Question 16

What is the difference between intrinsic and extrinsic membrane proteins?

Answer 16

Intrinsic- go all the way through the membrane Extrinsic- on the surface of the membrane

Question 17

What percentage of the plasma membrane proteins are extrinsic and what percentage are intrinsic?

Answer 17

~30% extrinsic, ~70% intrinsic

Question 18

Are extrinsic proteins more hydrophobic or philic?

Answer 18

Hydrophilic

Question 19

Are intrinsic proteins more hydrophobic or philic?

Answer 19

Hydrophobic

Question 20

What are 3 examples of intrinsic membrane proteins?

Answer 20

Channel and carrier proteins, some enzymes

Question 21

What are 3 examples of extrinsic membrane proteins?

Answer 21

Receptors, antigens, glycolipids/glycoproteins

Question 22

How is membrane structure affected below 0 C?

Answer 22

Phospholipids have less energy, so pack more tightly and membrane is more rigid. Channel and carrier proteins denature, ice crystals may penetrate membrane, making it more permeable

Question 23

How is membrane structure affected between 0 and 45 C?

Answer 23

As temperature increases, phospholipids get more energy and move more, so membrane permeability increases

Question 24

How is membrane structure affected above 45C?

Answer 24

Phospholipid bilayer begins to break down and melt, so membrane more permeable. Expanding water in cell puts more pressure on membrane. Channel/carrier proteins denature.

Question 25

Why are polar solvents such as water essential in the structure of plasma membranes?

Answer 25

To keep the heads and tails of the phospholipids arranged correctly

Question 26

Why do organic solvents dissolve membranes?

Answer 26

Many are less polar than water (i.e alcohols) and some are completely non-polar (i.e benzene). This means that phospholipid bilayer is disrupted and cell membrane dissolves

Question 27

Why is alcohol used in antispetics?

Answer 27

Becuase it is less polar than water, so dissolves the plasma membranes of bacteria

Question 28

Why are alcoholic drinks harmful to cells?

Answer 28

While they do not dissolve plasma membranes like strong or pure alcohols, they still damage them because non-polar alcohol molecules get between the phospholipids, disrupting the membrane and making it more fluid and permeable.

Question 29

Why does people’s behaviour change if they drink alcohol?

Answer 29

Because it disrupts the membranes of neurones (nerve cells) in the brain, whose membrane is vital in the transmission of nerve impulses

Question 30

Which direction do substances move during endocytosis?

Answer 30

Into the cell

Question 31

Which direction do substances move during exocytosis?

Answer 31

Out of the cell

Question 32

What type of substances are transported by phagocytosis?

Answer 32

Solids

Question 33

What type of substances are transported by pinocytosis?

Answer 33

Liquids

Question 34

What is an example of endocytosis?

Answer 34

Glycogen molecules entering liver cells to be stored

Question 35

When do endo/exocytosis occur?

Answer 35

When large amounts of molecules need to be moved across the cell surface membrane quickly

Question 36

Are exo/endocytosis active processes?

Answer 36

Yes, as they require energy to move the vesicles and cell surface membrane

Question 37

When does endocytosis occur?

Answer 37

When a high concentration of useful substances are present outside the cell surface membrane

Question 38

What happens during endocytosis?

Answer 38

The cell surface membrane folds inwards (a movement controlled by microfilaments) until it pinches off and forms a vesicle around the desired molecules; this vesicle can then be transported around the cell via the cytoskeleton

Question 39

What triggers exoctosis?

Answer 39

Some form of external factor, such as a certain hormone being present in sufficient amounts

Question 40

What occurs during exocytosis?

Answer 40

Vesicles containing the required molecule are moved along the cytoskeleton to the cell surface membrane. The vesicle then fuses with the membrane, and the molecules are released from the cell

Question 41

What is an example of exocytosis?

Answer 41

Insulin being released in response to low blood glucose concentrations

Question 42

What is the general term for exo/endocytosis?

Answer 42

Bulk transport

Question 43

What is cell signaling?

Answer 43

When cells communicate with each other, i.e using hormones or in the nervous system

Question 44

What would cells designed to respond to a hormone likely have?

Answer 44

A cell receptor (usually a glycoprotein or glycolipid) with a complementary shape to that hormone

Question 45

What is a primary messenger?

Answer 45

The hormone or other molecule which binds with the complementary cell receptor

Question 46

What happens when a hormone binds to the cell receptor?

Answer 46

It causes an enzyme attached to the receptor to begin working

Question 47

What happens when an adrenaline molecule binds to a glycoprotein?

Answer 47

It causes an enzyme to begin catalyzing the conversion of ATP into cAMP, which triggers the necessary reactions within a cell

Question 48

What is a secondary messenger?

Answer 48

Something which causes the necessary reactions within a cell once the primary messenger has bound to a receptor

Question 49

What is an example of a common secondary messenger?

Answer 49

cAMP

Question 50

Why are secondary messengers necessary?

Answer 50

Because primary messengers cannot always pass through the cell surface membrane

Question 51

Why don’t some primary messengers, such as steroid hormones, need secondary messengers or cell receptors?

Answer 51

Because they can pass through the cell-surface membrane themselves (steroid hormones are lipid-based)

Question 52

What are reactions caused by a secondary messenger called?

Answer 52

Enzyme controlled reactions

Question 53

What is an example of an enzyme controlled reaction?

Answer 53

More carrier/channel proteins being placed in the cell surface membrane

Question 54

Why is diffusion a passive process?

Answer 54

Because it uses particles’ own kinetic energy

Question 55

What is diffusion?

Answer 55

The net movement of particles across a partially permeable membrane and down a concentration gradient

Question 56

Which molecules can diffuse into cells between the phospholipids in the cell surface membrane?

Answer 56

Lipid-based molecules and ones which are very small (such as CO2, O2 or H20)

Question 57

Which molecules can diffuse into cells, but only via facilitated diffusion?

Answer 57

Larger or polar/charged molecules

Question 58

What is simple diffusion?

Answer 58

Diffusion in which the molecules move between gaps in the phospholipids

Question 59

What is facilitated diffusion?

Answer 59

Diffusion of larger or charged molecules across a cell membrane through channel (for smaller molecules) or carrier (for larger ones) proteins

Question 60

Where does the energy that a carrier protein needs to change shape come from?

Answer 60

The particle’s own kinetic energy when it collides with the carrier protein

Question 61

What is osmosis?

Answer 61

The net movement of free water molecules across a partially permeable membrane. Down a concentration gradient

Question 62

How is the number of free water molecules measured?

Answer 62

As water potential

Question 63

What is the highest possible value for water potential?

Answer 63

0, the water potential of distilled water

Question 64

What is the effect of addition of solutes to a solution on its water potential?

Answer 64

It lowers its water potential

Question 65

What units is water potential measured in?

Answer 65

kPa (i.e water with water potential of 0 puts 0kPa of pressure on a membrane)

Question 66

What is the protoplast?

Answer 66

The plant cell except the cell wall

Question 67

What is crenation?

Answer 67

Where a cell shrinks due to a lack of water

Question 68

What is haemolysis?

Answer 68

Where a cell swells, bursts and releases its contents due to having too much water

Question 69

What is an isotonic solution?

Answer 69

One with the same water potential as a cell, meaning that there is no net movement of water in or out of it

Question 70

What type of solution should blood be?

Answer 70

Isotonic

Question 71

What is a hypotonic solution?

Answer 71

One with a higher water potential than cells, meaning that there would be a net movement of water into the cells

Question 72

What is a hypertonic solution?

Answer 72

One with a lower water potential than cells, so there would be a net movement of water out of the cells

Question 73

What would happen to an animal cell placed in a hypertonic solution?

Answer 73

It would crenate

Question 74

What would happen to an animal cell placed in a hypotonic solution?

Answer 74

It would haemolyse

Question 75

What should the protoplast of a plant cell in an isotonic solution be doing?

Answer 75

Slightly pulling away from the cellulose cell wall

Question 76

What happens to a plant cell placed in a hypotonic solution?

Answer 76

Its permanent vacuole fills with water, causing the protoplast to swell and press against the cell wall, making the cell turgid

Question 77

What happens to a plant cell placed in a hypertonic solution?

Answer 77

The cell surface membrane pulls away from the cell wall (also known as plasmolysis) and the hypertonic solution fills the space

Question 78

What are 5 factors which maximize rate of diffusion?

Answer 78

Concentration gradient, diffusion distance, temperature, surface area, amount of substance

Question 79

What are some adaptations of exchange surfaces to maximise rate of diffusion?

Answer 79

Thin membranes, good blood supply, large SA:V ratio, large amount of carrier/channel proteins, good ventilation (in the lungs)

Question 80

State 3 roles of membranes inside cells

Answer 80

1. Isolation of contents in vesicles 2. Provide selective permeability 3. Site of attachment of enzymes