Cell Membranes (Chapter 4)

Question 1

What is the main function of the cell membrane?

Answer 1

Controlling the exchange of materials such as nutrients and waste products between the cell and its environment

Question 2

What are other functions of membranes?

Answer 2

Cell recognition (antigens)
Cell communication (protein receptors)
Within cells, internal membranes created compartments enabling specific metabolic reactions to occur in discrete locations

Question 3

What are characteristics of biological membranes?

Answer 3

Very thin sheet-like structures
The components associate through non-covalent interactions
Fluid structures
Highly selective permeability barriers
Consist mainly of proteins and lipids
Asymmetric - the two faces of the membrane are different

Question 4

What affects how a molecule is transported across a membrane?

Answer 4

Its size, solubility and charge

In general, the smaller and more hydrophobic it is, the more rapidly it will diffuse

Question 5

What molecules cannot diffuse regardless of size?

Answer 5

Charged molecules and ions - they must travel through a membrane protein

Question 6

LEARN THE FLUID MOSAIC MODEL OF THE CELL SURFACE MEMBRANE

Answer 6

OK

Question 7

What is a phospholipid?

Answer 7

A molecule with a hydrophilic head (phosphate group) and two hydrophobic tails

Question 8

What is the role of phospholipids in the cell surface membrane structure?

Answer 8

They form the phospholipid bilayer - the basic structure of the membrane

Question 9

What is the function of cholesterol?

Answer 9

At low temperatures, cholesterol increases the fluidity of membranes, preventing it from becoming too fluid
At high temperatures, the interactions of the phospholipid tails with the cholesterol molecules helps to stabilise cells

Question 10

Why does my heart flip every time I see you smile?

Answer 10

Beta-galactimase

Question 11

What happens to phospholipids on the surface of water?

Answer 11

They form a single layer with their heads in the water (because these are hydrophilic/polar) and their tails projecting out of the water (because these are hydrophobic/non-polar)

Question 12

What happens when phospholipids are shaken up with water?

Answer 12

They can form stable ball-like structures called micelles

Or two-layered structures called bilayers, which form in sheets

Question 13

What is the basic structure of cell membranes?

Answer 13

The phospholipid bilayer (which also contains proteins)

Question 14

What is the model for the structure of cell membranes called?

Answer 14

The fluid mosaic model

Question 15

Why is the name fluid mosaic model used?

Answer 15

‘fluid’ because both the phospholipids and proteins can move about by diffusion
‘mosaic’ describes the pattern produced by the scattered protein molecules

Question 16

Describe the basic structure of cell membranes

Answer 16

A bilayer of phospholipid molecules

• the tails point inwards, facing each other and forming a non-polar hydrophobic interior
• the heads face the aqueous medium surrounding the membrane

Question 17

What factors affect fluidity of the phospholipids (membranes) and how?

Answer 17

1) Saturation - the more unsaturated, the more fluid the membrane because the fatty acid tails are bent and so fit together more loosely
2) Length of tail - longer tail, less fluid
3) Temperature - lower temp, less fluid

Question 18

What are the two types of protein in a membrane?

Answer 18

Intrinsic/integral proteins

Extrinsic/peripheral proteins

Question 19

What are intrinsic proteins?

Answer 19

Proteins that are found embedded within the membrane

- they may only be found in the inner layer, outer layer, or spanning the whole membrane (transmembrane proteins)

Question 20

Describe the structure of intrinsic proteins

Answer 20

Hydrophobic regions - repelled by aqueous environment
Hydrophilic regions - repelled by hydrophobic interior and therefore face the aqueous environment or have hydrophilic pores

Question 21

What are extrinsic proteins?

Answer 21

They are found on the inner or outer surface of the membrane
- many are bound to intrinsic proteins but some are bound in other ways

Question 22

What is the total thickness of the membrane on average?

Answer 22

7nm

Question 23

Describe the functions of phospholipids

Answer 23

1) They form the bilayer
2) Because the tails are non-polar, it is difficult for polar molecules/ions to pass through - so they act as a barrier to most water-soluble molecules e.g preventing sugars and amino acids from leaking out
3) Some can be modified chemically to act as signalling molecules
4) Can be hydrolysed to release small, water-soluble glycerol-related molecules which diffuse through the cytoplasm and bind to specific receptors

Question 24

What is cholesterol?

Answer 24

A relatively small molecule with a hydrophobic head and hydrophilic tail

Question 25

Where is cholesterol found?

Answer 25

Lots in the animal CSM
Less in plant CSM
Absent in prokaryotes

Question 26

What does cholesterol do at low temperatures?

Answer 26

It increase the fluidity of the membrane, preventing it from becoming too rigid by preventing the close packing of phospholipid tails
- this means that cells can survive colder temps

Question 27

What does cholesterol do at high temperatures?

Answer 27

The interaction of the phospholipid tails with the cholesterol molecules helps to stabilise cells when the membrane could otherwise become too fluid

Question 28

What is cholesterol important for?

Answer 28

1) The mechanical stability of membranes - w/o it, membrane quickly break and burst open
2) Hydrophobic regions of cholesterol molecules help to prevent ions/polar molecules from passing through the membrane - v important in nerve cells

Question 29

What are glycolipids?

Answer 29

Lipid molecules with short carb chains attached

Question 30

What are glycoproteins?

Answer 30

Protein molecules with short carb chains attached

Question 31

Describe the functions of the carbohydrate chains on glycolipids and glycoproteins

Answer 31

1) They project like antennae into the watery fluids surrounding the cell, where they form H-bonds with the water molecules, helping to stabilise the membrane structure
2) They help the GL+GP to act as receptor molecules, which bind with particular substances at the cell surface

Question 32

What are the three types of receptor?

Answer 32

1) Signalling receptors
2) Receptors involved in endocytosis
3) Receptors involved in binding cells to other cells (cell adhesion) in tissues and organs of animals

Question 33

What do signalling receptors do?

Answer 33

They are part of a signalling system that coordinates the activities of cells

• the receptors recognise messenger molecules
• when the messenger molecule binds to the receptor, a series of chemical reactions is triggered inside the cell

Question 34

What do receptors do in endocytosis?

Answer 34

They bind to molecules that are parts of the structures to be engulfed by the CSM

Question 35

What do some types of glycolipid/glycoprotein act as?

Answer 35

Cell markers (antigens) allowing cell-cell recognition
- each type of cell has its own type of antigen

Question 36

What are the roles of proteins in the membrane?

Answer 36

1) Transport proteins
2) Enzymes
3) Attached to the cytoskeleton - help to maintain, decide and change the shape of the cell
4) In membranes of organelles - e.g. involved in respiration and photosynthesis in mitochondria and chloroplasts

Question 37

What are the two types of transport protein?

Answer 37

Channel proteins and carrier proteins

Question 38

Describe the functions of transport proteins

Answer 38

1) Provide hydrophilic channels for ions/polar molecules to pass through the membrane
2) Have roles in facilitated diffusion and active transport
3) Each one is specific for a particular kind of ion/molecules - therefore the types of substances that enter/leave the cell can be controlled

Question 39

Why is cell signalling important?

Answer 39

Helps to explain how living organisms control and coordinate their bodies

Question 40

What is signalling?

Answer 40

Getting a message from one place to another

Question 41

Why do living organisms need signalling?

Answer 41

Because all cells and organisms must be able to respond appropriately to their environments

Question 42

How is signalling made possible in organisms?

Answer 42

By means of a complex range of signalling pathways which coordinate the activities of cells, even if they are large distances apart

Question 43

Describe the signalling pathway

Answer 43

Stimulus/signal 
Receptor
Transmission of signal (involves crossing barriers)
Target/effector
Appropriate response

Question 44

Why is the CSM a critical component of most signalling pathways?

Answer 44

Because it is a barrier to the movement of molecules, controlling what moves between the external and internal environments of the cell

Question 45

Describe signalling molecules?

Answer 45

Very small for easy transport

Hydrophobic or water-soluble

Question 46

What does the signal do when it gets to the receptor?

Answer 46

• It brings about change in the shape of the receptor which allows the receptor to act with the next component in the pathway
• The next component is a ‘G protein’ which acts as a switch to bring about the release of a’second messenger’ (a small molecule which diffuses through the cell, relaying the message)

Question 47

How do hydrophobic signalling molecules work?

Answer 47

They can diffuse directly across the CSM and bind to receptors in the cytoplasm/nucleus

Question 48

How do water-soluble signalling molecules work?

Answer 48

They arrive at a protein receptor in the CSM

The receptor is a specific shape which recognises the signal

Question 49

How many second messenger molecules can be made in response to one receptor molecule being stimulated and what does this represent?

Answer 49

Many - this represents an amplification of the original signal (a key feature)

Question 50

What happens after the second messenger molecule is released?

Answer 50

• The molecule activates an enzyme, which activates more enzymes, increasing the amplification at each stage
• Finally, an enzyme is produced which brings about the required change in cell metabolism/movement/secretion

Question 51

What other ways can a receptor alter the activity of a cell?

Answer 51

1) Opening an ion channel, resulting in a change of membrane potential
2) Acting directly as a membrane-bound enzyme
3) Acting as an intracellular receptor when the initial signal passes straight through the CSM

Question 52

Apart from the secretion of chemical signals, what is another mechanism of signalling?

Answer 52

Direct cell-cell contact