cell membrane and transport on the left side of your intnb, draw the set-up of the demonstration...
TRANSCRIPT
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Cell Membrane and Transport
On the left side of your IntNB, draw the set-up of the
demonstration once it has been explained to you.
Make an hypothesis as to which direction the liquid will flow.
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The plasma/cell membrane is selectively permeable
~only certain substances are allowed to pass through
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What can and can not pass through the membrane?
CAN PASS THROUGH• Things that can
dissolve in fat• Small molecules• Water
CAN NOT PASS THROUGH
1. Things that can dissolve in water
2. Large molecules
3. Ions: Molecules with plus (+) or minus (-) charges
CH2OH
OH
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What is an Isotonic Solution?
• [Water] inside cell = [Water] outside cell
• Cell is at equilibrium– Molecules are equally
distributed in end
• The amount of water entering the cell = the amount of water leaving the cell
95% 95% waterwater
95% 95% waterwater
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What is a hypotonic solution?
• A solution that has MORE water, and LESS solute
• The cell can lyse or burst if left in a hypotonic solution
100% 100% waterwater
95% 95% waterwater
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What is a hypertonic solution?
• A solution that has LESS water and MORE solute
• The cell will dehydrate90% 90% waterwater
95% 95% waterwater
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What can pass through a membrane? (p. 253)
Can pass through membrane
Cannot pass through membrane
Solubility?
Size?
Charge?
Water solubleFat soluble
Small Large
Uncharged Molecules
Ions (H+, Na+, HCO3-, K+…)
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The Plasma Membrane (p. 251)
TEM of a red blood cell
Hydrophilic Region
Hydrophilic Region
Hydrophobic Region
Phospholipid
Proteins
Carbohydrate side chainsGlycoprotein
Inside of Cell
Outside of Cell
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No energy is used[High] [Low] (it’s the natural flow)
This means it goes down a concentration gradient
There are three types…
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[High] [Low]
Passive Transport: Diffusion
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OsmosisPassive Transport: Osmosis (Diffusion of water)
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Facilitated Diffusion+ CH2OH
OH
Passive Transport: Facilitated Diffusion
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Energy is used[Low] [High]
This means it goes up or against a concentration gradient
There are three types…
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Protein Pumps
Protein Pumps: proteins use energy to pull or pump materials into or out of the cell to stockpile or storestore substances the cell needs
Active Transport: Protein Pumps
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Different Types of Membrane Proteins (page 252)
TRANSPORTERS RECEPTORS ENZYMESSIGNAL/ RECOGNITION
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Different Types of Membrane Proteins (page 252)
signal/recognition
Enzymes
receptor
transporter
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Endocytosis• When cells engulf particles into the cell• 2 types
1. Phagocytosis: When a cell wraps part of its membrane arounda large particle forming a “pocket” or vesicle
2. Pinocytosis: The same process, but with smaller particles or liquids
Active Transport: Endocytosis
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Exocytosis
1. A vesicle carrying a substance
2. fuses with the cell membrane
3. and releases the substance
Active Transport: Exocytosis