Sodium-Glucose Transport 2.pdf

Transcript

## B2.1 Membranes & Membrane Transport

### Membrane fluidity
- Depends on the type of fatty acids and cholesterol between the phospholipids
- Membranes must be sufficiently fluid to allow many of its functions but not too fluid as it must also control what can pass through.

#### Unsaturated fatty acids:
- Fatty acid chains
- If saturated = straight => can pack together
- More solid in room temp.
- Ie. has a higher melting point
- Unsaturated fatty acids, bends in their chains => harder to pack => increase in fluidity
- Ie. lower melting point
- **Arctic fish:** What composition of fatty acids do they have?
- More unsaturated fatty acids compared to fish in warmer water

### Cholesterol
- Ringed lipid molecule
- Amphipathic
- Hydrophobic tail - interacts with the phospholipid tails
- Hydrophilic part - interacts with the phospholipid heads.
- **Cholesterol** regulates membrane fluidity by acting as a modulator
- At high temp. cholesterol binds to phospholipids => prevents them from being too fluid => stabilizing
- At low temp. cholesterol prevents phospholipids from packing too densely => increasing fluidity

## B2.1.1 Membrane Structure: Fluid Mosaic Model

- **Phospholipids**
- **Integral membrane protein**
- **Cholesterol **
- **Peripheral protein**

Proteins in the membrane can have different functions:

**Integral proteins**
- Have both hydrophilic and hydrophobic parts
- Ie. protein channels for facilitated diffusion
- Protein pumps for active transport

**Peripheral proteins**
- On the surface of the membranes, either facing the outside or the inside of the cell.
- Can function as:
- Hormone receptors
- Neurotransmitter receptors
- Immobilised enzymes.

**Glycoproteins**
- Have chains of sugars (oligosaccharides) attached.
- These function as cell recognition "identity flag" = antigens.

### Membrane Transport

- Efficient barrier that controls what goes in & out
- How can substances pass across the membrane?
- **Passive transport** - no energy required
- **Simple diffusion** - the passive movement of particles from a higher conc. to an area of lower conc. => along the conc. gradient until the conc. is equal everywhere
- **Facilitated diffusion**
- **Osmosis**
- **Active Transport** - energy (ATP) required

#### Passive transport

- **Simple Diffusion**
- Only small, non polar & non-charged particles can diffuse between the phospholipids:
- O2 (oxygen gas)
- CO2 (carbon dioxide)
- Always from a higher to a lower conc.
- Small, charged or polar particles cannot pass across the membrane.
- **Salts** Na+, K+, Cl-, Ca2+ => charged, must diffuse through channel proteins in the membrane
- **Osmosis**

## D2.3 Osmosis

**Hypotonic** - **Hypertonic**

- Water moves from a hypotonic solution to a hypertonic solution to even out the conc. of free-moving water molecules.
- Continues until equilibrium on both sides.
- This is diffusion:
- No energy required
- Along the conc. gradient

**Animal cells vs. Plant cells**

**Animal cells**

- No cell wall
- Have cell membrane
- Unicellular organisms have contractile vacuole to regulate osmotic condition:
- Osmosis => contractile vacuole
- Multicellular animals (humans) don't have this

**Plant cells**

- Cell wall
- Have cell membrane on the inside of the wall
- Have large vacuole.

### Osmolarity
- Measure of solute conc. in a litre of water
- **Hypertonic** - High conc of solutes
- **Hypotonic** - Low/no conc of solutes
- **Isotonic** - Same conc of solutes on both sides of a membrane