Yes, the mechanisms responsible for depolarizations in question are the processes of neurotransmitter release (vesicle cycle) and the different properties of neurotransmitter binding to postsynaptic channels located in the dendrites. I discuss these concepts in the video titled "Properties of Neurons In The Central Nervous System," which focuses on the different modes of communication between neurons (including all the different types of ways neurons can get depolarized).
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Ok, now Gk isn't constant! So the graph cannot be a straight line I suppose...
What do you mean we don't know the mechanisms responsible for depolarization?? Do you just mean you introduced it later in a video?
Yes, the mechanisms responsible for depolarizations in question are the processes of neurotransmitter release (vesicle cycle) and the different properties of neurotransmitter binding to postsynaptic channels located in the dendrites.
I discuss these concepts in the video titled "Properties of Neurons In The Central Nervous System," which focuses on the different modes of communication between neurons (including all the different types of ways neurons can get depolarized).
@@sciencewithtal Ahh thank you!! I appreciate the reply :)
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