Is not that graph you showed in the beginning of the video related to the sodium voltage channels, that activates the concentration gradient channels after that first curve? Tks! ;-)
@janaenae13383 жыл бұрын
So what do you do if your potassium channel is closed
@blixasice10 ай бұрын
My vgkc was high after flu shot 5 years ago. Calf pain and twitching. What can i do???
@hamzahdomeih77502 ай бұрын
Go to the hospital
@clemeschmidt Жыл бұрын
I might be in love with you Pete.
@savvasdonta333 жыл бұрын
Why are the channels slow to open and close?
@vvhitevvanish84243 жыл бұрын
what causes the k+ channels to be slow?
@dannichols62613 жыл бұрын
Yes, I have the same question! It seems almost like in contrast, the Na gate is 'toggled', like a spring-loaded electric light switch, such that the movement of its voltage sensor has no effect until suddenly it 'snaps' the gate open, whereas in the K gate the force dynamics of the structure is different, such that there is a slowly changing resistance of the gate to open as the voltage sensor is pushed harder and harder by depolarization, perhaps opening the gate a little bit at a time until it's open sufficiently to allow ion flow? I wonder whether it's the SENSOR which is somehow 'retarded' in its motion, or the CONNECTIONS between the sensor & the gate are more 'spongy' (like hydraulic brakes in a car with air in the lines) , or the GATE is itself retarded in some way (like a door's hinges which need oil)?