Plasma Membrane: Composition & Functions

Question 1

What are the main functions of the cell membrane?

Answer 1

• boundary that separates the living cell from its surroundings

-Essential for all cells

-A barrier to prevent the contents of the cell from escaping and mixing with molecules in the surrounding environment (e.g. nutrients must pass inward, waste products must move out)

-exhibits selective permeability, allowing some substances to cross it more easily that others

• protection/support to the cell, regulating its shape

Question 2

In Eukaryotic cells, inner membranes allow what?

Answer 2

-the compartmentalisation of individual organelles (specific composition for specific reactions)

Question 3

Diagram of Bacterial and Eukaryotic cell membrane?

Question 4

Cell membranes are composed of what?

Answer 4

different kinds of lipids and proteins (different functions) and share a common general structure

Question 5

What is a lipid bilayer?

Answer 5

-lipids are arranged in two closely apposed sheets, forming a lipid bilayer, in which proteins are embedded and some carbohydrates

Question 6

What are Phospholipids?

Answer 6

-(phosphoglycerides) are the most abundant lipids in the plasma membrane arranged in two-layer sheets (phosphatidycholine is the most abundant)

-Phospholipids are amphipathic, containing hydrophobic and hydrophilic regions

Question 7

What does amphipathic mean?

Question 8

What does hydrophobic mean?

Answer 8

-Their hydrophobic (’water repellent’) tails are arranged inwards, to shield water and form a sealed comportment

Question 9

What does hydrophilic mean?

Answer 9

-The Phosphate group or other hydrophilic (’waterloving’) heads are arranged to face outwards, exposed to the aqueous solutions

Question 10

Hydrophillic and Hydrophobic diagram?

Question 11

What is the Fluid Mosaic?

Answer 11

• dynamic and complex structure of the plasma membrane

Question 12

What are the components of the mosaic ?

Answer 12

-phospholipids, Glycolipids, sterols (cholesterol in mammalian cells) and various proteins and glycoproteins are contained.

Question 13

Fluidity of a lipid bilayer depends on what?

Answer 13

-its composition

Question 14

What can a lipid molecule do?

Answer 14

-2-dimensionally move along the plane of the bilayer

Question 15

What is a Glycoprotein?

Answer 15

-A protein with a carbohydrate attached

Question 16

What is a Glycolipid?

Answer 16

-A lipid with a carbohydrate attached

Question 17

Phospholipids movements can lead to what?

Answer 17

-Rapid lateral diffusion of lipid molecules within the plane of each monolayer
- Spin in place (rotation -up to 500 revolutions per second)
- Flexion: contraction movement
- Flip-flop from a side to the other (very rarely)

-Proteins (usually do not move and they are anchored to the cytoskeleton)
- Only some proteins can slightly and slowly move driven by the motor proteins

Question 18

Diagram of Phospholipids movements?

Question 19

Other lipids of the plasma membrane ?

Answer 19

-Cholesterol (only in animal cell membranes), and glycolipids are also amphipathic

• Cholesterol (20% of the membrane lipids) modulates the membrane fluidity and improving its stability
• Stiffen the membrane (less flexible and less permeable). Reducing molecules passage

Question 20

Other lipids of the plasma membrane diagram?

Question 21

What are Glycolipids?

Answer 21

-lipids containing sugars representing their hydrophilic head. Sugar groups always facing the cell exterior (The bilayer is asymmetrical)

Question 22

What are membrane Proteins?

Answer 22

–synthesised in the rough ER, (secretory pathway)

• Most are trans-membrane / integral membrane proteins, crossing the membrane

-They are amphipathic

-Hydrophobic regions (non-polar amino acids), often coiled into alpha helices, lie in the interior of the bilayer

-Hydrophilic regions of amino acids are exposed to the external aqueous environment.

• Other proteins are embedded in the membrane, exclusively on the cytosolic
• Or peripheral membrane proteins, on either side of the membrane and covalently attached to membrane lipids or other integral membrane proteins.

Question 23

Extracellular Space diagram?

Question 24

What are the functions of membrane proteins?

Answer 24

• Transport of molecules

-Protect the cell surface from mechanical damage and involved in cell-to-cell communication

• Enzymatic activity
• Signal transduction/cell communication
• Structural support/Attachment to the extracellular matrix (ECM)

Question 25

Most membrane proteins are what?

Answer 25

-Glycoproteins

Question 26

Glycoproteins/ membrane proteins are what?

Answer 26

-short chains of sugars linked to amino acids (facing extracellular space)

Question 27

What is Protein glycosylation?

Answer 27

-post-translational modification in Rough ER and Golgi apparatus

Question 28

Cell/plasma membranes are what?

Answer 28

-selectively permeable, regulating the traffic of molecules and ions in/out of cells. Also valid for the membrane of organelles

Question 29

What are the two main types of cell/plasma membranes?

Answer 29

-Passive transport

• Active transport

Question 30

What is PASSIVE transport?

Answer 30

-Movement of molecules across membranes without the expenditure of energy

• Movement DOWN the concentration gradient
• Movement from areas with high concentrations to a low concentration of the molecule, with the aim to reach an equilibrium
• Works in both directions

Question 31

What are the 3 main types of PASSIVE transport?

Answer 31

• Diffusion
• Osmosis
• Facilitated diffusion

Question 32

Passive Transport - What is diffusion?

Answer 32

-FREE movement of molecules across the lipid bilayer such as O2 and CO2 and small uncharged polar molecules, such as urea and ethanol

• No energy ATP cost
• Down their gradient concentrations until an equilibrium is reached

-Each substance diffuses down its own concentration gradient, independent of the concentration gradients of other substances.

-Many of the organic molecules that a cell uses as nutrients are too large and polar to pass efficiently through diffusion

Question 33

Diagram of diffusion and what can pass through the lipid bilayer ?

Question 34

Passive transport- What is Osmosis?

Answer 34

-Movement of of water/solvents across a semipermeable membrane from a solution with higher water potential (lower solute concentration) to a solution with lower water potential (higher solute concentration)

• Water potential of a solution is inversely proportional to the solutes concentration
• When the solutes cannot go across the membrane, osmosis occurs

Question 35

Diagram of Osmosis?

Question 36

What is Osmotic pressure?

Answer 36

-Hydrostatic pressure required to stop the net flow of water across a membrane separating solutions of different water potentials

-The rate of osmotic movement of water across the plasma membrane of cells is limited. Water can flow into/out of cells also by aquaporins (facilitated diffusion)

Question 37

What are the 3 Osmotic solutions?

Answer 37

-Isotonic Solution
-Hypertonic Solution
-Hypotonic Solution

Question 38

What is an Isotonic Solution ?

Answer 38

-a solution with the same concentration of solutes both inside and outside the cell

Question 39

What is a Hypertonic Solution?

Answer 39

-a solution that has a higher solute concentration outside than inside the cell

Question 40

What is a Hypotonic Solution?

Answer 40

• a solution that has a higher solute concentration inside than outside the cell

Question 41

What does Tonicity: mean?

Answer 41

-The ability of a surrounding solution to cause a cell to gain or lose water

Question 42

Changes in osmotic conditions cause cells to ..?

Answer 42

-swell or shrink rapidly

-The movement of water across the plasma membrane determines the volume of an individual cell, which must be regulated to avoid damage to the cell.

Question 43

Hypertonic Solution causes red blood cells to do what?

Answer 43

-Shrivel, cell loses water

Question 44

Hypotonic Solution causes red blood cells to…?

Answer 44

-Swell/ lysed, gain water

Question 45

Isotonic solution causes red blood cells to..?

Answer 45

-Act as normal due to no net water movement

Question 46

Passive Transport- What is Facilitated Diffusion?

Answer 46

• The passive movement of molecules down a concentration gradient (or electrical potential) via a transport protein (transmembrane proteins)

-Protein channel (ions or water)

-Protein carrier/transporters (of specific small molecules or ions)

• Highly specific (glucose vs. fructose)
• Reversible
• No energy ATP cost
• Specific ions (e.g Cl-)
• Hydrophilic small molecules (e.g glucose)
• For facilitated diffusion of water (aquaporins)

Question 47

Facilitated diffusion- What are protein channels?

Answer 47

–Channels (pore membrane forming) form hydrophilic ‘tube’ across the membrane through which specific molecules/ions diffuse (down a concentration gradient)

• Do not interact with the molecules, although specific
• Move at a very rapid rate
• Passive transport (no energy cost)

Question 48

Facilitated Diffusion- What are Aquaporins?

Answer 48

-for facilitated diffusion of water to specifically increase the permeability of cellular membranes to water

Question 49

Facilitated diffusion- What are protein carriers/ transporters?

Answer 49

-Three transporter types ( uniporters, symporters and anti-porters)

• Uniporter is the only transporter based in passive transport
• Shift/transport a single type of molecule (ions or small molecules) across the membrane (not as a channel)
• It involves the interaction with the specific molecule (shape complementary) that induces a conformational change of the protein to mediate the transport of the molecule
• Work at much slower rate than channels

Question 50

What are the 3 protein transporter types?

Answer 50

-uniporters
- symporters
-anti-porters)

Question 51

What are Symporters and anti-porters?

Answer 51

-Symporters and anti-porters (based on co-transport of more than 1 molecule) are active transport (against the concentration/electron gradient)

Question 52

What is a Uniporter?

Answer 52

-is the only transporter based in passive transport

Question 53

What is Active Transport ?

Answer 53

-Moves substances against their concentration or electrochemical gradients

• Requires energy, usually in the form of ATP

-Performed by specific proteins embedded in the membranes

• Allows for stockpiling

Question 54

What are the Common features of transport proteins and enzymes ? -Active Transport

Answer 54

-Specific binding sites for solute

• Can be saturated
• Can be inhibited by molecules that resemble the normal ‘substrate’
• Catalyse a physical process

Question 55

Transporters that shift more than 1 molecule type at the same time are…?

Answer 55

-are active transport based on binding with the molecule (shape complementarity)

Question 56

How many molecules do Symporters transport?

Answer 56

-Transport 2 different molecules across the cell membrane (same direction)

Question 57

How many molecules do Anti-porters transport?

Answer 57

-moving 2 distinct molecules across the membrane (opposite directions) E.g Na+ - K+ pump uses the energy of one ATP to pump 3 Na+ out and 2 K+ in.

Question 58

What is Vesicle Transport?

Answer 58

-Transport of large macromolecules

-Bulk transport requires vesicle transport (endomembranous system).

Question 59

What are the two main types of Vesicle Transport?

Answer 59

according to the direction:

1) Endocytosis

2) Exocytosis

Question 60

What is Endocytosis?

Answer 60

• Uptake (from outside to inside) of macromolecules and large particles. Invagination of the cell surface to form an intracellular membrane-bounded vesicle containing extracellular-fluid.

Question 61

What is Exocytosis?

Answer 61

• Secretion or excretion (from inside to outside) e.g. insulin (protein hormone) by pancreatic cells. Transport vesicles (from Golgi) migrate to the plasma membrane, fuse with it, and release their contents,

Question 62

Endocytosis and Exocytosis Diagram?

Question 63

What are the 3 main types of endocytosis ?

Answer 63

1) Phagocytosis (’cellular eating’)

2) Pinocytosis (’cellular drinking’)

3) Receptor-mediated endocytosis

Question 64

the cell takes macromolecules from outside by forming vesicles, what is this process called?

Answer 64

-Endocytosis

Question 65

What does the The lipid bilayer provide?

Answer 65

-The basic structure and barrier function of all cell membranes

Question 66

Membrane lipid molecules are what?

Answer 66

-amphipathic, having both hydrophobic and hydrophilic regions. This property promotes their spontaneous assembly into bilayers when placed in water, forming closed compartments.

Question 67

The lipid bilayer is a ?

Answer 67

-fluid mosaic, composed of many different lipids, embedded proteins, glycolipids and glycoproteins. Lipid molecules are able to move along the bilayer

Question 68

-Membrane proteins are responsible for what?

Answer 68

-most of the functions of cell membranes and they are in general trans-membrane proteins or associated to other proteins or lipids.