「Nerv06/introduction/mechanism of synaptic transmission」の版間の差分

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<GIFT>
<GIFT>
//LEVEL:2
//LEVEL:2
//RAND
//RAND
The process of synaptic transmission is mainly {~electric~=chemical}
The process of synaptic transmission is mainly {~electric~=chemical}


//LEVEL:3
//LEVEL:3
//RAND
//RAND
The synaptic transmitter is released and then connects with the {~ion channels~=receptors} on the post-synaptic membrane.
The synaptic transmitter is released and then connects with the {~ion channels~=receptors} on the post-synaptic membrane.


//LEVEL:2
//LEVEL:2
//RAND
//RAND
The synaptic transmitter connects to the receptor on the {~pre-synaptic~=post-synaptic} membrane.
The synaptic transmitter connects to the receptor on the {~pre-synaptic~=post-synaptic} membrane.


//LEVEL:3
//LEVEL:3
//RAND
//RAND
The synaptic transmitter is released from the {=pre-synaptic~post-synaptic} membrane.
The synaptic transmitter is released from the {=pre-synaptic~post-synaptic} membrane.


//LEVEL:3
//LEVEL:3
//RAND
//RAND
The synaptic transmitters are stored in the {~pre-synaptic membrane~post-synaptic membrane~synaptic cleft~=synaptic vesicle}.
The synaptic transmitters are stored in the {~pre-synaptic membrane~post-synaptic membrane~synaptic cleft~=synaptic vesicle}.
</GIFT>
</GIFT>

2014年11月18日 (火) 21:47時点における版

POINT!
03847.jpg

synaptic transmission is a chemical process.

When an action potential <1> reaches the nerve ending of the pre-synaptic neuron, the synaptic vesicle <2> moves towards the pre-synaptic membrane and then <3> fuses with the pre-synaptic membrane. With this movement, <4> the synaptic transmitter is released, and then <5> connects to the receptor on the post-synaptic membrane. This causes the post-synaptic membrane to depolarize and an <6> action potential is generated.

Challenge Quiz

1.

The process of synaptic transmission is mainly electric chemical

2.

The synaptic transmitter is released and then connects with the ion channels receptors on the post-synaptic membrane.

3.

The synaptic transmitter connects to the receptor on the pre-synaptic post-synaptic membrane.

4.

The synaptic transmitter is released from the pre-synaptic post-synaptic membrane.

5.

The synaptic transmitters are stored in the pre-synaptic membrane post-synaptic membrane synaptic cleft synaptic vesicle .