Lecture 19 Flashcards
What is diffusion?
the process which molecules move from an area of high concentration to an area of low concentration by random thermally driven motion
Rate of diffusion across membranes depends on
- Size: smaller = faster diffusion
- solubility: hydrophobic = faster diffusion
Order molecules on their membrane permeability
- small non polar molecules (O2)
- small uncharged polar molecule (H2O)
- larger uncharged polar molecules (amino acid)
- ions (Cl-)
What ions concentration contribute the most in the cell
Na+ : in = [5-15], out = [145]
K+ : in = 140, out = [5]
Cl- : in = [5-15], out = [110]
what is membrane potential
- it is the voltage difference across the membrane around -200mV
What is the difference between transporters and channels
- transporters: transport only molecules or ions that fit into specific binding sites
- channels: transport solutes through channels, discriminating based on size and electric charge
What is passive transport
- spontaneous movement of solute down its electrochemical gradient
- both channels and transporters can perform passive transport
- it is also possible that passive transport require energy
What is active transport
- movement of a solute against its electrochemical gradient
- performed by transporters known as “pumps” which utilize energy
what the the electrochemical gradient
- the driving force determining how an ion will move across a plasma membrane. it is a combined influence of ions concentration and membrane potential
Why doesn’t K+ diffuse out of the cell spontaneously
- it doesn’t because the membrane potential is negative therefore the K+ ions are attracted back into the cell due to it’s electrochemical gradient
what is osmosis
- osmosis is the movement of water down its concentration gradient from and area of low solute concentration to an area of high solute concentration
what are aquaporins
- special channel proteins that allow the flow of water across the plasma membrane
glucose transporter
- multipass transmembrane protein
- performs passive transport by changing conformations
- after a meal, concentration of glucose is high and bind to liver cell, causing its import into the cytosol
- when blood sugar is low, glucagon stimulates liver cell breakage of glycogen to release glucose in the blood resulting in a higher concentration of glucose in the cell than outside the cell
- the flow of glucose can go in either ways according the direction of the concentration gradient
What are pumps? And provide examples
Pumps perform active transport in 3 way:
1. Coupled pump: link uphill transport of one solute with the downhill transport of another
2. ATP-driven pump: hydrolyze ATP to drive uphill transport
3. Light-driven pump: use energy derived from sunlight to drive uphill transport
The Na+ - K+ pump
- pumps 3 Na+ out of the cell and 2 K+ into the cell at the expense of ATP. A phosphate is transiently added to the pump
- maintains a steep concentration gradient: high Na+ outside of the cell and high k+ inside the cell
- high [Na+] outside of the cell acts like a dam, storing energy. Influx of Na+ can be coupled with the transport of other molecules