Ion Channels - L1

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Year 2 (Structure and Function of Ion Channels) Development of the Specialised Cell Fichas sobre Ion Channels - L1, creado por Anna mph el 29/03/2016.
Anna mph
Fichas por Anna mph, actualizado hace más de 1 año
Anna mph
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Resumen del Recurso

Pregunta Respuesta
What are the four types of membrane transport used by cells? 1) Passive Transport ie Osmosis 2) Active Transport - uses ATP 3) Secondary Active Transport - uphill and downhill 4) Endo- & Exocytosis - for large molecules
Which ion channel is responsible for the plateau phase/prolonged action potential? Ca2+ channel
At which voltages is the overshoot of an AP at? Anything greater than 0 mV.
List two places where you would see Ca2+ channels in animals? 1) Guinea Pig Atrium 2) Rabbit Node of Ranvier
What feature of an ion channel does the AP correlate with as described by Hodgkin and Huxley? Permeability of the channel - ie ability of ions to cross channel
How does the concentration of ions affect AP? The greater the difference in concentration the greater the AP
What is an aquaporin? Membrane channel which only lets water through
What forms the basis of selectivity of the ion channel for passive transport? Size and charge of the pore
What can membrane channels also function as? Receptors - sense changes on the membrane and inside the cell
Give an example of a disease caused by a malfunction of aquaporin channels Swelling of the brain.
What maintains the ionic gradient across a cell membrane? Na+/K+ pump
What does the pump which maintains the ionic gradient require? ATP
What is the ratio of ions across the Na+/K+ pump? 3Na+ and 2K+
What type of energy does the Na+/K+ pump store? What is it setting? 1) Energy from hydrolysis of ATP is stored as ionic gradient 2) Sets a new gradient
What property does the Na+/K+ channel show? Electrogenic property
What sets up the Na+/K+ channel? Voltage gated K+ channel and leak channels
How do the Na+/K+ pump and voltage gated K+/leak channels relate? Membrane potential is formed by repolarisation (ie by voltage gated K+ channels). Without Na+/K+ pump the gradient decays.
What is the typical range of RMPs? -40 to -70mv
How is a typical membrane gradient orientated? Negative from inside to out.
What is meant by the electrochemical gradient and equilibrium? 1) Electrochemical gradient - gradient which an ion will move along based on the balance of concentration of that ion and the difference of charges across that membrane. 2) Equilibrium - the point at which there is no net flow of ions based on the balance of the concentration of ions and the charge.
What is capacitance? Ability to store charge
What are the concentrations of Na+, K+ and Ca2+ inside and outside of cells? Na+) O: 145mM I: 20mM K+) O: 4mM I: 150mM Ca2+) O: 2.5mM I: 1uM
What promotes resistance to flow? What can be done to reduce this? Which equation describes this? 1) Lack of open channels 2) Increase the 'open probability' of channels 3) Ohm's Law - V=IR
What causes a pore to become semi-permeable? What then controls this? A gate - mechanism which controls the open/closed configuration is the gating mechanism.
How do local anaesthetics work? What property do they show? 1) Disrupt ion flow through channels - either block Na+ channels (hydrophilic) or bind to side of channel preventing function (hydrophobic) 2) Use dependence
Describe the stages which occur on the way to peak potential of an AP? 1) Na+ enters cell, depolarisation 2) Na+ flows down concentration gradient towards equilibrium 3) VG Na+ channels start to open with depolarisation 4) If depolarisation reaches threshold many VG Na+ channels open causing AP 5) Concentration gradient decreases/shifts and Na+ ions get close to equilibrium
What happens after the peak of the AP is reached? 1) +ve membrane potential causes K+ channels to open. 2) K+ flows out of cell causing repolarisation 3) Hyperpolarisation occurs. 4) Gradient stabilised and maintained by Na+/K+ pump
What are the physiological equilibrium potentials of: 1) Na+ 2) Ca2+ 3) K+ 4) Cl- 1) +61mV 2) +137mV 3) -95mV 4) -65mV
Describe the Nernst Equation Eion=RT/ZkF.ln[IONout]/[IONin]
What values would you use in the Nernst equation? For divalent ions? For anions? 1) 58log10 at room temp 2) Divide by 2 3) Invert concentrations
How do membranes store charge? Ion/charge separation - transmembrane electrical field.
Describe the Goldman-Hodgkin-Katz equation. What does is predict? Which Ions mainly determine this and why? 1) Vm = 61.5log10(p[IONout]/[IONin] nb. as an anion this is reversed for Cl- 2) Predicts membrane potential. 3) Cl- and K+ as have highest permeability at RMP
What values do these markers stand for in Hodgkin and Huxley's numerical model: 1) n? 2) m? 3) h? 1) Kinetic variable - which has voltage dependence 2) Activation variable 3) Inactivation variable
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