neural transmission Flashcards
what are nervous signals?
nervous signals are a change in resting potential
what is depolarisation?
the neuron becomes less negative
what is hyper polarisation?
the neuron becomes more negative
what is the theoretical experiment to explain action potential when you inject hyper polarisation current?
- inject a hyper polarisation current into electrode 1 and record the voltage from electrode 2 and 3
- however much negative current you inject the voltage for electrode 2 is the same as electrode 1
- electrode 3 will not change its voltage
- this suggests that the inside of the neuron (axoplasm) has high resistance to current spread
what is the theoretical experiment to explain action potential when you inject current above -15mV?
- inject current above -15mV in electrode 1
- electrode 2 goes positive then negative (much bigger response)
- this is action potential
- action potential is regenerated as it moves along the axon
- electrode 3 also gets a response
what is the threshold to trigger action potential?
15-20 mV is threshold , threshold triggers action potential
how do you trigger action potential?
to trigger action potential you have to depolarise inside of neuron by about 15mV
explain action potential steps?
- inside of neuron is negative during resting potential
- threshold depolarisation opens Na channels
- Na rushes into the neuron until it reaches equilibrium potential is reached at 50 mv
- neuron suddenly becomes negative
- inside of neuron becomes negative due to K channels opening both electrical and chemical force push k out neuron
- K will continue to move outside the neuron till equilibrium is reached
- sodium/potassium pumps 2 K back into neuron and remove 3 Na out
what is the effect of Na on action potential?
less sodium=less action potential
what forces act on potassium when the neuron is depolarised during action potential?
both the electrical and chemical force are acting to push potassium out of the neuron
what is the function of protein when you depolarise a neuron?
.the plasma membrane of the cell contains proteins which act as ion channels
.proteins change shape when you depolarise a neuron
.proteins change shape to let Na through / stop Na in
explain the hypothetical mechanism for the mode of action of an ion channel?
- in a resting neuron positive in protein attracts negative in neuron , the channel is shut
- to trigger action potential inside of neuron becomes positive
- the positive charge inside neuron repels the positive part inside the protein
- this causes the molecule to flip and open up the channel and Na will move
why is action potential regenerated along the neuron?
.action potentials dont diminish in size as they travel along a neuron
. they therefore must be regenerated as they go along
explain action potential transmission?
- resting neuron is negative on inside and positive on the outside
- to trigger action potential depolarise neuron this opens Na channel
- Na rushes inside neuron
- inside neuron becomes positive
- Na ions get attracted to the forward part of neuron that has not been stimulated and where action potential isnt present
- local circuit is set up where opposites attract
- action potential triggers next bit of axon to make action potential this is called a local circuit
what is a local circuit?
action potential triggers the next bit of axon to make action potential
