1. Cell Membranes & Movement Across Them

2. -Cell Membrane Modeling
Bell Ringer
The bonds linking the bases in DNA are ___________ bonds
Identify letters X and Y respectively in Figure 12-4
3. Using figure 12-4 above, what do letters E and F represent?
Agenda:
-Bell Ringer
-Notes
-Cell Membrane Modeling
-Exit Slip (?)

3. Lipids Group of organic molecules that dissolve in oils, but not water
Types
Steroids
Phospholipids
Fats and oils

4. Saturated vs. Unsaturated Fats
Can you see the difference?

5. “saturated” with Hydrogen Solid at room temp
Saturated Fat
Unsaturated Fat
“saturated” with Hydrogen
Solid at room temp
Can clog arteries and increase risk of heart attack and stroke
Mainly found in animal foods
Meat and dairy often high in saturated fat
2 Carbons are connected by double bond and 2 Hydrogens are missing
Liquid at room temp
Can benefit you
Mainly found in plant foods and fish
oils

6. Cell (plasma) membrane
Cells need an inside & an outside…
separate cell from its environment
cell membrane is the boundary IN
food
- sugars
- proteins
- fats
salts O2
H2O
OUT
waste
- ammonia
- salts
- CO2
- H2O
products
- proteins
cell needs materials in & products or waste out

7. Remember: oil & water don’t mix!!
Building a membrane
How do you build a barrier that keeps the watery contents of the cell separate from the watery environment?
 FATS 
 LIPIDS 
Remember: oil & water don’t mix!!
What substance do you know that doesn’t mix with water?

8. Lipids of cell membrane
Membrane is made of special kind of lipid
phospholipids
“split personality”
Membrane is a double layer
phospholipid bilayer
“attracted to water”
phosphate
inside cell
outside cell
lipid
“repelled by water”

9. Semi-permeable membrane
Cell membrane controls what gets in or out
Need to allow some materials — but not all — to pass through the membrane
semi-permeable
only some material can get in or out
So what needs to get across the membrane?
sugar
lipids aa O2
H2O
salt
waste

10. Crossing the cell membrane
What molecules can get through the cell membrane directly?
fats and oils can pass directly through
lipid
inside cell
outside cell
salt
waste
but…
what about other stuff?
sugar aa
H2O

11. Cell membrane channels
Need to make “doors” through membrane
protein channels allow substances in & out
specific channels allow specific material in & out
H2O channel, salt channel, sugar channel, etc.
inside cell
H2O aa
sugar
salt
outside cell
waste

12. How do you build a semi-permeable cell membrane?
Channels are made of proteins
proteins both “like” water & “like” lipids
bi-lipid
membrane
protein channels in bi-lipid membrane

13. Protein channels Proteins act as doors in the membrane
channels to move specific molecules through cell membrane
HIGH
Donuts!
Each transport protein is specific as to the substances that it will translocate (move).
For example, the glucose transport protein in the liver will carry glucose from the blood to the cytoplasm, but not fructose, its structural isomer.
Some transport proteins have a hydrophilic channel that certain molecules or ions can use as a tunnel through the membrane -- simply provide corridors allowing a specific molecule or ion to cross the membrane.
These channel proteins allow fast transport.
For example, water channel proteins, aquaprorins, facilitate massive amounts of diffusion.
LOW

14. Different types of proteins found in cell membrane
Channel proteins- allow hydrophilic substances to enter the cell through a passageway (Facilitated diffusion)
Transport proteins- the transfer of substances across the membrane due to spending energy (ATP).  Also known as active transport.
Adhesion proteins- attach cells to neighboring cells or act as anchors
Receptor proteins- provide binding sites for enzymes or hormones. Transmit signals across a membrane

15. What else makes up the cell membrane?
Phospholipids
Cholesterol
Proteins
Carbohydrates

16. Roles of Cell Membrane Identify the cell
Control what enters and exits the cell
Maintain homeostasis for the cell

17. Cell Membrane Models Must Have: Phospholipid bilayer 2 proteins
Receptor
Channel

19. Movement through the channel
Why do molecules move through membrane if you give them a channel?
HIGH ?
LOW ?

20. Molecules move from high to low
Diffusion
move from HIGH to LOW concentration
Movement from high concentration of that substance to low concentration of that substance.

21. Diffusion Move from HIGH to LOW concentration diffusion of water
passive transport
no energy needed
diffusion of water
diffusion
osmosis

22. Simple Diffusion Move from HIGH to LOW LOW HIGH fat fat fat
Which way will fat move?
inside cell
fat
fat
fat
LOW
HIGH
fat
outside cell
fat
fat
fat
fat
fat
fat
fat

23. Facilitated Diffusion
Move from HIGH to LOW through a channel
sugar
sugar
sugar
sugar
inside cell
sugar
sugar
LOW
Which way will sugar move?
HIGH
outside cell
sugar
sugar
sugar
sugar
sugar
sugar
sugar

24. Diffusion Move from HIGH to LOW concentration
directly through membrane
simple diffusion
no energy needed
help through a protein channel
facilitated diffusion (with help)
HIGH
LOW

25. Simple vs. facilitated diffusion
simple diffusion
facilitated diffusion
lipid
inside cell
outside cell
inside cell
outside cell
H2O
protein channel
H2O

26. Active transport
Cells may need molecules to move against concentration “hill”
need to pump “uphill”
from LOW to HIGH using energy
protein pump
requires energy
ATP
Plants have nitrate & phosphate pumps in their roots.
Why?
Nitrate for amino acids
Phosphate for DNA & membranes
Not coincidentally these are the main constituents of fertilizer.
ATP

27. Transport summary simple diffusion facilitated diffusion
ATP
active transport

28. Osmosis Movement of Water Across Cell Membrane

29. Osmosis Water is very important, so we talk about water separately
diffusion of water from HIGH concentration of water to LOW concentration of water
across a semi-permeable membrane

30. Keeping water balance
Cell survival depends on balancing water uptake & water loss
freshwater
balanced
saltwater

31. Keeping right amount of water in cell1
Keeping right amount of water in cell
Freshwater
a cell in fresh water
high concentration of water around cell
cell gains water
example: Paramecium
problem: cells gain water, swell & can burst
water continually enters Paramecium cell
solution: contractile vacuole
pumps water out of cell
KABOOM!
freshwater
No problem, here

32. Controlling water
Contractile vacuole in Paramecium

33. Keeping right amount of water in cell2
Keeping right amount of water in cell
Saltwater
a cell in salt water
low concentration of water around cell
cell loses water
example: shellfish
problem: cell loses water
in plants: plasmolysis
in animals: shrinking cell
solution: take up water
I’m shrinking, I’m shrinking!
saltwater
I will survive!

34. Keeping right amount of water in cell3
Keeping right amount of water in cell
Balanced conditions
no difference in concentration of water between cell & environment
cell in equilibrium
example: blood
problem: none
water flows across membrane equally, in both directions
volume of cell doesn’t change
That’s better!
balanced
I could be better…

35. Ice Fishing in Barrow