Electrical signalling Flashcards
why are ion channels or transporters required?
biological membrane is impermeable to the ions therefore ion channels/transporters for ion movements - allows selective permeability
what does the membrane usually allow and not allow?
allows 1. hydrophobic molecules: O2, CO2, N2 2. small uncharged polar molecules Does not allow 1. large uncharged polar molecules: glucose, sucrose 2. ions: na+,K+, H+
what is the significance of ion flow?
- to establish concentration gradient
- generates membrane potential
- utilised for electrical signalling
what is an action potential?
transient alterations in membrane potential that propagate along the axons
give few examples of excitable and non-excitable cells
- excitable cells
1. neurones - synaptic vesicle release
2. endocrine cell - hormone release
3. muscle cells - contraction - non-excitable cells - epithelial, adipose
how is resting membrane potential established?
- selective membrane permeability of K+ ions
- K+ - primary determinant of RMP
- varying Na+ minimal effect
what are the various phases of action potential and how do the Na+/K+ channels mediate those?
- depolarisation: opening of VG Na+ channels
- repolarisation: closure of Na+ and opening of VG K+ channels
- hyperpolarisation: VG K+ channels remain open after the potential reaches resting level
what is the difference b/w excitatory and inhibitory?
EPSP - Na+ influx (via GluR)
IPSP - Cl- influx (via GABAR/GlyR)
what is the refractory period and what is its advantage?
- absolute RP and RP
- absolute RP - stimulus fails to initiate AP
- relative RP - bigger stimulus - AP fired thus, longer hyperpolarisation period
- because activation and inactivation involve VGSC conformation changes which needs time to reset
what is the advantage of refractory period?
favours unidirectional prorogation
