block 2 Flashcards
why is the lipid bilayer considered a good resistor?
because it doesn’t allow ions to pass through it without a conductor
-if the ion channels are open = higher resistance
what is the movement of ions influenced by?
-concentration gradient
-electrical gradient
describe a equilibruim potential of -70mv
-there are more positive k+ ions inside the cell than outside therefore postive ions move out of the cell down their concentration gradient = so the cell is more negative inside than out
equilibrium potentials are calculated using the Nernst equation
- see lecture
electrical current
-the movement of electrical charges (ions)
ohns law
V=I x R
v= voltage
R=resistance
I=electrical current
resistance
-the measure of friction a component presents to the flow of current
-the more ion channels open= the more resistant
conductance
-how easy it is for current to flow through a conductor
-opppsire of resitance
G= I/R
g=conductance
capacitance
-the store of charge that builds up on a membrane
-the charge required to change membrane potential by a given value= to imitate a action potential
-membrane capacitance act slow to change membrane protentional
e.g. the lipid bilayer because it stores charge
RC circuit
capacitor= 2 conductors separated by a thin insulator
-the current will either charge the capacitor
-or flow through the conductor and out of the cell
actions of the RC circuit
- initally all the charge will change the capacitor
- as charge starts to flow in the capacitor its voltage starts to change
-as the capacitor charge the rate of voltage change drops and more and more current is diverted through the resistor
-when the capacitor is fully charged the current goes through the resistor
what is capacitance influenced by
-cell size and insulator thickness e.g. myelination
c= surface area/insulator thickness
gilal cells
-wrap around many axons at once.
-Larger axons are surrounded by several glial cells instead of just one.
-These glial cells help guide the electrical signals along the axons, acting like a pathway or channel that helps the signal move smoothly.
However, this process is different from myelination
oligodendrocyte
cells that cause myelination in the CNS
schwarnn cells
cells that cause myelination in the PNS
how does myelination occur?
Oligodendrocytes/ schwarnn cells wrap around the axon multiple times, forming multiple layers of their cell membrane around it. These layers stack on top of each other to create the myelin sheath, which is the thick, insulating layer that helps speed up the nerve signals traveling along the axon
Oligodendrogenesis
Neural Progenitor Cells → turn into → Oligodendrocyte Precursor Cells (OPCs) → develop into → Oligodendrocytes.
how do we know which axons are going to be myelinated?
-small axons arent going to be myelinated between 0.1 micromemtres to 0.4 micrometres
-the larger they get the more curvature occurs = increased diameter= increased myelination
Wnt / β – catenin intracellular regulation of the myelination pathway in the CNS
-can inhibt and promote myelination
PI3K / AKT / mTOR intacellular pathway regulation of the myelinated pathway of the CNS
-Inhibition of mTOR results in the impaired
initiation of myelination and hypomyelination
Knock-out models show reduced
myelin thickness due to
oligodendrocytes being unable to
produce sufficient myelin proteins
ERK / MAPK