2.1.5 - Biological Membranes

Question 1

Phospholipid structure

Answer 1

A glycerol molecule
Two fatty acid tails (saturated and unsaturated)
Phosphate group

Question 2

Properties of phospholipid

Answer 2

Phosphate group is polar —> hydrophilic
Fatty acid tails are non polar —> hydrophobic

(Amphipathic)

Question 3

Why does soap dissolve the membrane easily

Answer 3

Membranes are made from lipids

Question 4

What is selective permeability

Answer 4

When what goes in and out of the cell is regulated by only letting certain things in and out

Question 5

Major molecules in cell membranes

Answer 5

Phospholipids

Proteins

Question 6

Amphipathic

Answer 6

The molecule has dual nature (hydrophobic and hydrophilic)

Question 7

What roles do proteins play in transport

Answer 7

Regulation

Question 8

What kinds of cells have cell walls

Answer 8

Plant
Bacterial
Fungal

Question 9

What are glycoproteins made from

Answer 9

Proteins

Sugars

Question 10

Example of a glycoprotein

Answer 10

Antibodies - important in immune response

Question 11

What are glycolipids made of

Answer 11

Fats

Sugars

Question 12

Why can’t water pass through the phospholipids

Answer 12

The inside is non polar

Question 13

How do proteins assist in transport

Answer 13

Allow big things and things that have a charge to move across the membrane

Question 14

What is a plant cell wall made of

Answer 14

Cellulose

Question 15

What is a bacteria cell wall made from

Answer 15

Peptidoglycan

Question 16

What is a fungal cell wall made from

Answer 16

Chitin

Question 17

Function of chlolesterol in cell membranes

Answer 17

Regulates fluidity of membrane by keeping phospholipids slightly apart or pulling them closer
Hydrophilic ends interact w/ heads and hydrophobic end interacts w/ tails; pulls them together
Prevent phospholipids from grouping together too closely and crytsallising

Question 18

Function of glycoprotein in cell membrane

Answer 18

Cell adhesion - binding site for hormones and drugs
Cell signalling to coordinate activities of organisms
Antigens for the recognition of ‘self’
Acts as receptor

Question 19

Function of glycolipid

Answer 19

Form cell markers/ antigens

Question 20

Function of carbohydrates in cell membrane

Answer 20

Hydrophilic molecules that sit on the cell surface membrane and attracts water with dissolved solutes

Question 21

Carrier protein

Answer 21

Changes shape to allow specific molecules in and out of the cell

Question 22

Channel protein

Answer 22

These provide a hydrophilic channel that allows the passive movement of polar molecules down a concentration gradient

Water filled channel inside is lined with hydrophilic amino acids

Question 23

Integral/ intrinsic proteins

Answer 23

Proteins that span the whole membrane

Either channel or carrier proteins

Question 24

Protein receptor site

Answer 24

Acts as receptors to detect hormones and/or drugs

Question 25

How do carrier proteins work

Answer 25

Molecule binds
Carrier protein changes shape
Releases molecules on the other side

Question 26

When is diffusion rapid

Answer 26

Small

Non-polar molecules

Question 27

Facilitated diffusion

Answer 27

Involves carrier and channel proteins within the cell membrane.
These help transport large, polar molecules e.g. glucose, across the membrane

Question 28

Functions of a cell membrane

Answer 28

Can be a site of chemical reactions - contain enzymes
Cell signalling
Create conc. gradient
Has antigens so the immune system recognises it as ‘self’
Separates contents from outside - barrier (cell or organelles)
Regulates transport of molecules in/out of a cell or organelle
Seperates metabolic pathways

Question 29

Factors affecting diffusion

Answer 29

Temperature
Molecule size 
Conc. gradient 
Diffusion distance 
Surface area

Question 30

Cell membrane permeability at higher temps

Answer 30

Phospholipids moving around so fluidity and permeability increases (more kinetic energy)
Cholesterol reduces the fluidity
The proteins could denature and the bilayer could be completely permeable

Question 31

What does water dissolve

Answer 31

Polar solutes

Question 32

What does ethanol dissolve

Answer 32

Membranes, disrupting cells which is why alcohols are used in antiseptic wipes

Question 33

How do solvents affect permeability

Answer 33

Non polar or less polar solutes will disrupt membranes as the tails no longer orientate towards the middle. The membrane will become more fluid and more permeable

Question 34

What happens if animal cells are put into pure water

Answer 34

Cell bursts open, it is cytolysed

Question 35

What happens if animal cells are put in a solution with low water potential

Answer 35

Cell shrinks and appears wrinkled - it is crenated

Question 36

What happens if a plant cell is put in pure water

Answer 36

Plant cell wall prevents bursting. Membrane pushes against cell wall - cell is turgid

Question 37

What happens if a plant cell is put in a solution with very low water potential

Answer 37

Plasma membrane pulls away from the cell - it is plasmalysed

Question 38

Water tendency

Answer 38

Measure of the tendency of water molecules to diffuse from one region to another

Measured in kPa

Question 39

What is water potential affected by

Answer 39

The amount of solute it contains

The greater the amount of solute it contains, the lower or more negative the lower water potential

Question 40

Osmosis

Answer 40

The passive movement of water from an area of high water potential to an area of low water potential across a partially permeable membrane

Question 41

Active transport

Answer 41

Movement of substances from low to high conc. across a cell membrane, using ATP and protein carriers (against a conc. gradient)

Question 42

What do carrier proteins combine reversibly with

Answer 42

Specific solute molecules or ions. They also have a region that binds to and allows the hydrolysis of a molecule of ATP to release energy

Question 43

Sodium potassium pump

Answer 43

Carrier proteins binds 3 Na+ ions and 1 ATP

ATP is hydrolysed to release energy and the carrier protein changes shape

Question 44

Tonicity

Answer 44

How much solute is in the solution

Question 45

Hypotonic

Answer 45

Less solute

Higher water potential

Question 46

Hypertonic

Answer 46

More solute

Lower water potential

Question 47

Highest water potential

Answer 47

0 kPa

Pure water - no solute dissolved

Question 48

Endocytosis

Answer 48

Taking in large particles into the cell using vesicles and ATP
Csm invaginates when it comes into contact w/ substance
Enfolds membrane til it fuses –> forms vesicle
Vesicle pinches off and moves into cytoplasm to necessary organelle

Question 49

Phagocytosis

Answer 49

Endocytosis carries out by phagocytic cells

Question 50

Pinocytosis

Answer 50

Taking in liquid into the cell

Question 51

Passive transport

Answer 51

Diffusion
Facilitated diffusion
Osmosis

Question 52

Bulk transport

Answer 52

Movement of molecules through a membrane by the action of vesicles

Question 53

Thickness of plasma membrane

Answer 53

7.5 nm

Question 54

How factors affect the rate of diffusion

Answer 54

(Temp x SA x Conc. diff)/(diffusion distance x size of particle)

Question 55

Receptor mediated endocytosis

Answer 55

Transports LDLs and viruses into the cell only

Requires ATP

Question 56

Investigating cell membrane permeability

Answer 56

Cut 5 equally sized beetroots w/ a cork borer
Rinse and dry - to remove all pigment
Add beetroots to diff test tubes w/ 5cm^3 of water
Add each tt to a diff water bath w/ diff temp for same amount of time
Remove beetroot and using a pipette transfer remaining sol. to cuvette until 3/4 full
Use blue filter and measure abs
High abs, more pigment released, more permeable

Question 57

Investigating water potential of plant cells

Answer 57

Prepare sucrose sol. of diff conc.
Use cork borer to get identically sized potato cylinders
Measure mass w/ mass balance
Place each cylinder is diff conc. solution for same amount of time
Calculate % change in mass
Plot conc. on x and % change on y to find when conc. was isotonic

Question 58

Examples of model cells

Answer 58

Agar jelly
Visking tubing
Gelatine cubes

These have a similar cytoplasm to our cells

Question 59

Investigating diffusion using model cells (conc.)

Answer 59

Prepare agar jelly / indicator and alkali (pink)
Prepare tt w/ diff conc. of acid
Cut equal sized cubes from agar jelly and place into tt
Use stopwatch and record time taken to go colourless
Higher conc. of acid = less time to go colourless
Repeat at least 3x and calculate mean

Question 60

Why do we do repeats

Answer 60

Calculate mean

Reduce effect of random error

Question 61

Precision

Answer 61

Having all your values close to EACH OTHER

Question 62

Accuracy

Answer 62

Having all your values close to the TRUE VALUE

Question 63

Why does facilitated diffusion not use ATP

Answer 63

Molecules have their own kinetic energy

Uses gradient

Question 64

Which type of fatty acid tail contributes most to fluidity

Answer 64

Unsaturated

Question 65

Intrinsic proteins

Answer 65

Channel proteins
Carrier proteins
Glycoproteins

Question 66

Extrinsic proteins

Answer 66

Present in one side of bilayer
Hydrophilic R groups on outer surface
Can be present in either layer and some move between layers

Question 67

Process of active transport

Answer 67

Molecule binds to receptor in channel of carrier protein
Binding of phosphate causes proteins to change shape - opening up to the inside
Molecule released to inside of cell
Phosphate released and recombines w/ ADP
Carrier protein returns to orig shape

Question 68

Processes requiring ATP as an immediate source of energy

Answer 68

Active transport
Exocytosis
Endocytosis