Membrane Transport

Question 1

Plasma Membrane Function

Answer 1

• barrier between intra & extracellular

- precise control movement of substances across or thorugh membrane is fundemental to physiological system processes

Question 2

Examples of Plasma Membrane Significance for Physiological Systems:

Answer 2

1. nurtition absorption from digestive tract into bloodstream
2. salt & water balance in kidneys

Question 3

Solvent Definition:

Answer 3

able to dissolve other substances

Question 4

Solute Definition:

Answer 4

minor component in a solution dissolved in the solvetn

Question 5

Aqueous Solution Defintion:

Answer 5

solution of solutes dissolved in water

Question 6

What are the two main structural components of the Plasma membrane?

Answer 6

• Lipid Bilayer

- Membrane proteins

Question 7

Lipid bilayer function in the plasma membrane

Answer 7

• made up of phospholipids with fatty acid tails = hydrophobic
• acts as barrier between aqeuous intracellular and extracellular fluid

Question 8

Membrane protein functions in the plasma membrane

Answer 8

• connects extra and intracellular spaces across lipid bilayer
  e. g. channels, carriers, or pumps
• provides highly regulated means of transport across membrane

Question 9

Passive Proccesses of Membrane Transport

Answer 9

• does not require metablic energy (ATP)

- traverse membrane passivley by diffusion (even distribution); down conc. gradient (from high -> low conc.)

Question 10

Active Processes of Membrane Transport

Answer 10

• requires metabolic energy (ATP)

- molecules transverse membrane against conc gradient (from low -> high conc.)

Question 11

Diffusion Defintion:

Answer 11

net flow of substances from a region of high concentration to a region of low concentration

Question 12

Variables that Effect the Rate of Diffusion

Answer 12

1. Molecular size: smaller molecules diffuse at faster rates as they bounce further after collision.
2. Distance: grater distance = slower rate of diffusion due to less collision
3. Conc. Gradient:
4. Cell Size: biger cells have larger surface area available for diffusion

Question 13

Rate of Diffusion is highest when:

Answer 13

concentration gradient, membrane permeability and surface area are increased and molecular weight and distance are decreased.

Question 14

Equation for rate of Diffusion for any substance:

Answer 14

Fick’s Law:

Q = (C×P×A)/(MW×X)

Question 15

Q = (C×P×A)/(MW×X)

Where:

Answer 15

Q = rate of diffusion
C = concentration gradient
P = Permeability
A = surface area
MW = molecular weight
X = distance

Question 16

Two major mechanisms by which solutes can transverse the plasma membrane by simple diffusion:

Answer 16

1. simple diffusion through lipid bilayer

2. simple diffusion through protein channels

Question 17

Simple Diffusion Through Lipid Bilayer:

Answer 17

Substances with high lipid solubility (O2, COs, N2, alcohol, fatty acids) dissolve in phosphoipds of lipid bilayer & diffuse directly through membrane
higher lipid solubility of susbatnce = faster rate of diffusion through membrane

Question 18

Simple Diffusion Through Protein Channels:

Answer 18

small water-soluble substances (H+, Na+, K+, Ca2-) transverse membrane through channels. these channels are often ion selective and may be gated

Question 19

Simple Diffusion:

Answer 19

Molecules transverse the membrane without binding to a carrier protein

Question 20

Facilliated Diffusion:

Answer 20

molecules that are lipid insoluble or too big o pass through protein channels. transverse the membrane by binding to carrier protein. protein undergoes conformational change. then solute is relesed into cell.

Question 21

Experiment to determine whether a substance moved across the plasma membrane by simple or facilitated diffusion?

Answer 21

Testing saturation kinetics to see if the rate of transport plateaus or not.

Question 22

Experiment to determine whether a substance moved across the plasma membrane by simple or facilitated diffusion?

Answer 22

Testing saturation kinetics to see if the rate of transport plateaus or not.
Once carrier proteins are occupied there is no increase in facilitated diffusionand the rate of transport plateaus. for simple diffusion increased conc. increases rate.

Question 23

the Importance of passive process in terms energy-expenditure by the human body

Answer 23

A great conservation of energy, metabolically friendly, no energy is expanded. allows our cellular energy to be used for other more important purposes

Question 24

Active Transport

Answer 24

• membrane spanning proteins act as molecular pump - moves substances lik Na+, K+, Ca2+, sugars, most amino acids
• Protein pump has high affinity binding site for a substance on low conc. side of membrane
• Substance binds and protein undergoes conformational change – process is powered by ATP
  e. g. Hydorgen pump, sodium potassium exchange pump, cals

Question 25

Bulk Transport:

Answer 25

• large substances may be too large for diffusion or solute pump
• Substances enter/leave in vesicles by a process powered by ATP

Question 26

Two Types of Bulk Transport:

Answer 26

1. Exocytosis

2. Endocytosis

Question 27

Exocytosis:

Answer 27

transport of material synthesised by cell from inside to outside. involves migration, fusion, breakdown. release of macromolecule outside the cell
e.g. hormones, neurotransmitters, enzymes

Question 28

Endocytosis:

Answer 28

transfer of large particles , macromolecules, and extracellular fluid into the cell. process involves a fold of plasma membrane forming around substance to be ingested, forming membrane-bound vesicle

Question 29

Three Types of Endocytosis:

Answer 29

1. Phagocytosis
2. Pinocytosis
3. Receptor-mediated Endocytosis

Question 30

Phagocytosis:

Answer 30

specialised cells able to ingest certain large solid particles – extension to form particle containing vesicle.Phagosome fuses with a lysosome that has digestive enzymes – break down debris and releases products into cell’s cytoplasm

Question 31

Pinocytosis:

Answer 31

involves a small volume of the extracellular fluid being incorporated into a membrane-bound vesicle formed by a small fold in the plasma membrane

Question 32

Receptor-mediated Endoytosus

Answer 32

the membrane expresses extracellular receptors to which a particular macromolecule binds

Question 33

Osmosis

Answer 33

movement of any solvent across selectively permeable barrier. Solvent – water; permeable barrier – plasma membrane

Question 34

How is the plasma membrane highly permeable to water despie the lipid bilayer with a hydrophobic core?

Answer 34

Water molecules are small enough to pass straight through lipid bilayer and protein channels. Water can move down conc. gradient in the same way small ions mov through the membrane via simple diffusion

Question 35

Appreciate the difference between the movement of water and solutes across the plasma membrane of cells.

Answer 35

diffusion of solutes across the membrane does not result in volume changes whilst osmosis does produce changes in volume as water moves freely across membrane

Question 36

Osmotic Pressure:

Answer 36

water moves from high -> low conc.
osmotic pressure is the driving force of osmosis. There will be greater water movement by osmosis when the concentration difference of non-penetrating solutes across membrane is high

Question 37

Osmolarity:

Answer 37

measure of the number of particles in a solution and reflects more accurately its osmotic pressure as it is does not only measure the concentration

Question 38

Tonicity:

Answer 38

movement of water in and around cells

Question 39

Formula for Osmolarity:

Answer 39

molarity of solution x no. of particles it dissociates into

1. add up molecules
2. divide % (multiply by 100) by molecular weight
3. multiply by the no. of particles it dissociates into
4. multiply by 1000 and rounf to 1 decimal

Question 40

Isotonic Solution Effect on Cells

Answer 40

• cells intact; ‘normal’ size
• water evenly distributed in and out of cell
• no net movement of water

Question 41

Hypertonic Solution Effect on Cells

Answer 41

• higher conc of colutes in ICF so water moves out of cell

- cell becomes shrivelled & shrunken

Question 42

Hypotonic Solution Effect on Cells

Answer 42

lower conc. of solutes than ICF so water flows into cell

- cell becomes swollen, enlarged, and may burst

Question 43

Equation for Equilibirum Potenital:

Answer 43

Nernst Equation:

E[ion]: -61 x log x (ion[in])/(ion[out])