1. Traffic control in cells… Who’s the man (or woman)??

2. “attracted to water”
“repelled by water”

4. Arranged as a Phospholipid bilayer
Serves as a cellular barrier / border between the living cell and the aqueous (water) environment(s).
sugar
H2O
salt
polar
hydrophilic
heads
nonpolar
hydrophobic
tails
impermeable to polar molecules
polar
hydrophilic
heads
waste
lipids

5. Permeability to polar molecules?
Membrane becomes semi-permeable via protein channels
specific channels allow specific material across cell membrane
inside cell
H2O aa
sugar
salt
outside cell
NH3

6. Cell membrane defines cell
Cell membrane separates living cell from aqueous environment
thin barrier = 8nm thick
Controls traffic in & out of the cell
allows some substances to cross more easily than others
hydrophobic (nonpolar) vs. hydrophilic (polar)

7. Cytoplasm Phospholipids
1972, Singer & Nicolson proposed Fluid Mosaic Model
Glycoprotein
Glycolipid
Extracellular
fluid
Phospholipids
Transmembrane
proteins
Cholesterol
Peripheral
protein
Filaments of cytoskeleton
Cytoplasm

8. Many Functions of Membrane Proteins
“Channel”
Outside
Plasma
membrane
Inside
Transporter
Enzyme activity
Cell surface receptor
“Antigen”
Signal transduction - transmitting a signal from outside the cell to the cell nucleus, like receiving a hormone which triggers a receptor on the inside of the cell that then signals to the nucleus that a protein must be made.
Cell surface identity marker
Cell adhesion
Attachment to the cytoskeleton

9. Why are cell membranes described in what is called the “Fluid Mosaic Model”?
Explain what Singer & Nicholson meant by this in 1972.

10. But how do cells move things in and out?