Sodium-potassium pump | Cells | MCAT | Khan Academy
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- Опубликовано: 15 окт 2024
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How a sodium potassium pump can maintain a voltage gradient across a cell or neuron's membrane. Created by Sal Khan.
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POTASSIUM. POTASSIUM. POTASSIUM 9:02 9:41 9:43 10:08 10:18 10:23 not sodium
Good looking out
I am a hardworking man 8-)
Sean Ngui thank you..I picked that up, which means something is making sense. please do a new one Mr Khan.
Thank god i am not the only one; I was losing my mind!!!!
ikr
I'm learning more on RUclips than in school for 2 reasons: 1) Visualization of information in an entertaining manner; and 2) Predisposition to learn (I choose what I'm interested in learning). This is the future of education.
You mix up your solutes many times. First you say that you pump out 3 phosphorus when you meant sodium and then you say you pump in sodium when you meant potassium. Otherwise, really appreciate the video.
07:25 Instead of "phosphate groups" it should actually be Na+ that gets pumped to the outside.
You are the best! Finally someone who can make sense of physiology and make it understandable. If professors cared enough to teach like you do there wouldn't be a pass or fail. It would be a passed the class only scenario. Thank you. I will be following all of your videos and telling all of my friends and family where they can go for clarity. Thank you. 1,000 times thank you.
These videos are all truly great, but this is the second one in which you have said "sodium" when you actually meant "potassium." Please be more careful!
thats why he made a correction video on it :)
you said sodium ions in step 5 when it was supposed to be potassium
Yes I saw that! i'm not going mad :D
Nice Video How a sodium potassium pump can maintain a voltage gradient across a cell or neuron's membrane That You Share , So Very Nice Thanks You
Cheers mate, i'm a year 12 human bio student from Australia, about to do a test on this tomorrow and was so confused up until now. Your fantastic at explaining and i'm going to forward this video on to all my friends as we are all so confused. Thanks man! i really appreciate it :)
what does he use to make these videos? It looks really fun!!
i cant believe how much sense this makes ! your are the best
I agree, but for specific reasons. Although a good teacher will explain this equally well, RUclips has these benefits: 1) you follow the explanation at a time of your own choosing, 2) there's less to no interference by classmates, 3) you can pause, repeat at will.
He made a few mistakes with naming Na K and K Na. He also called the Na in the second pump he drew to the left Phosphate,but he explained it very well.
Why would i read my biology notes when i can just watch this :D Thanks for making my life easier in biology!
@127miles - Yes, there is: Neurosciences. You can graduate in Medicine and then specialize in Neurosciences (like António Damásio did) or you can graduate in Biochemistry and then graduate in Psychology and then you'll be able to study Neurosciences. Actually if you take that second option, you'll understand more of the way the brain works molecularly (bcuz of Biochem) and you'll also understand better the human mind (bcuz of Psychology). My advice is: second option ;)
You made some errors...step 4 is Potassium, not sodium (as you said) and I think you made another error earlier in the video. Can you fix these so your video will make more sense?
Look up Synapses, I think that should give you the general idea. Basically the action potential opens Calcium channels and this leads to Neurotransmitter (or even Hormones maybe?) being released outside the Neurone, converting the Electrical Signal into a Chemical Signal.
yes, he said anywhere along the neuron that isnt mylinated. So yes you would find it on axon (nodes)
Wow this is really great
Thanks for the info
I understand it now
yup, its sodium ions that are released outside the cell, and the phosphate is released inside the cell simultaneously =P
AWESOME VIDEO....helped a lot fr my xams!!!
actually in its resting state the potential difference is -100mV (resting membrane potential) this is Veq, or equilibrium voltage, it goes to -70mV when the AP passes this is its driving force (therefore 30mV is the driving force of the AP)
Thanks.. Its a great help. God bless u!
Crystal clear (except minor errors) - thanks. RUclips is 'king marvellous for study!
The Na would be constantly moving around (kinetics) so at some point the Na will combine with the receptor sites. Also the inside of the cell is also positive so the Na ions would still repel even if the inside of the cell is less positive. At least that is my thought/explanation
yeah obviously its a fantastic video and me aswell appreciate this man...i was also confused but now its fine......
My tutor yayy! Thanks Khanacademy
Thank you BigEdJon, that makes a bit more sense to me now.
thanku veryy much sir.. God Bless you
This is explanation of Re-polarization to resting potential
Khan academy is awesome 👍
Your videos are fantastic, a great tool for gaining in general biology knowledge
This guy explains things better in 14 minutes than my lecturer does in two hours
what program do you use to draw all that, it's such an interesting program.
i love all the pretty colors
sir,the video is very useful in understanding about the sodium potassium pump.But there is 1 mistake in recording,when you explain about two potassium ion by mistake you say that these are sodium ions,overall the video was good.
I LOVE the way you explain this......thank you so much! I would LOVE to take your class.....do you teach in Chicago? LOL have a great day!
do you have anything else on active transport????
Okay. That makes more sense
I actually learned two things. The sodium/potassium pump and how a volt meter works :P Really effective vids man. :)
You're a genius.
You mixed up your sodiums, and potassiums a little bit but great video, very helpful!
This video was super helpful, thank you!
thanks for the video
saal keeeeeep it up.. ur a gr8 teacher
Brilliant...Thanks!
@nafizkarim he should really check back to this vid and annotate the mistakes. if it wasnt for u i wudve got mixed up, thx for the corrections :)
thanks alot Sir ! God bless u
thank you
what does it mean to have a negative voltage?
you told that there are 2 potassium ions passed into the neuron so does the no. of potassium ions inside the cell remain less throughout our life? please answer my doubt
i have one question, along the path of the neuron, how/where is electrical signal related to chemical signal ?
So ATP is not required to change the protein back to its original shape?
Previous Video on this series: Anatomy of a Neuron
Next Video on this series: Electrotonic and Action Potentials
Would this be classified as resting potential?
Awesome job explaining
i think there is also another error at the beginning, Dentrites is not a sender is a reciever !!
When does ADP dissociate from the pump?
these videos are great! thanks for the lesson i feel like i understand more now!
Khan Academy has only been up since 2006, and it already has 3518 videos on RUclips, that's almost 1.5 videos a DAY. How does one man learn this much!
Thanks! the videos I was watching showed repolarization as only K flowing outside the membrane, bud didn't explain how the k returned inside to polarize the cell again. It's the Na/K pump!
So the signal is received at the dendrite right? Does this electrical potential gradient exist from the tip of the dendrites, through the soma (cell membrane), down the axon and to the axon terminals? I thought that the gradient only existed on the axon and the signal traveled down the axon when the signal gets to the axon hillock. Maybe I am missing something...can someone help?
still a little confuse.
what occurs during the resting state ( such as specific ions inside and outside the neuron) i know that part, but what is the voltage inside the neuron during the resting state?
my god frank zappa is alive and teaches about neurons!!
But, doesnt a neuron actually hold data other than the superposition of the stimulation waves? how is that data such as a memory of how to carryout an action stored and stimukated when in need of carrying out the action?
Fissle Wine sorry im late.
but the reason why a neruon does not carry memory or any genetic material is because it does not synthesis tRNA so it can not go through the DNA replication process.
He said sodium instead of potassium and since i hardly understand this i was going to lose my mind until i read the comments
Help!!!!!! Does the Na+\K+ pump works during the action potential or only at rest?
Thanks a lot!!!! You're awesome!!!!!!
There are so many mistakes said in this video. You should redo it.
I love your videos but could you please make an video about biological membranes relating carrier proteins, channel proteins, diffusion etc. thank you !
if you say that the main reason of negative resting potential is the high resting permeability of K+, what happens when K+ in the blood goes high? As I know, the K+ might even enter the cell but it (the cell) becomes less positive, but still remains negative, for example at - 60 or - 55 mV. how to explain this negativity in this case?
I really appreciate uploading this video! It is really helpful for my biology test!! Really, thank you soooooo much!
Great Job! Love your vidoes!
what school did u go to?
Is there no dephosphorylation?
Why would the Sodium ions want to bind to the receptor site of the (orange) protein in first place if the inside is less positive?
Positive-Positive are not attracted to each other.
Someone please answer that. Thank you very much.
AWESOME video!!
Hi! Can you describe a simple experiment, explaining the contribution of the pump to the membrane potential?
Please be careful and attentive. Don't teach the wrong things to people.
@ 9:04 we have 2 POTASSIUM not sodium ions bond to the "pump"
@nafizkarim poor guy he kinda just got a bit unattentive for a sec you guys , he was making it on purpose to see if you were paying attention,LOL, the videos are AWESOMEEE :D i love the one of the krebs cycle.
I LOVE this man!
What are the things that affect the na/k pump activity?..
Today my exam😓
Sad but so true!
yes
First of, thank you for all the awesome videos! I had a question though, it resting potential -70mv or is it 90mv, or is it between the two?
Thabk you so much omg
why is this video under Standard RUclips Licence instead of Creative Commons?
To those of you about to fail your tests, I salute you.
i love you mr khan
YOU KEEP MIXING UP K AND NA!!! hopefully most of us caught it beforhand!
yeah the sodium and potassium are backwards at times
does anyone know hat software/hardware is used to produce these videos?
What happens to a cell if Thallium (TI) binds on it instead of potassium?
(It's known that TI got a higher affinity to the cell than K+)
The cell gets bigger and bigger but I don't know why...captain!
How many other people gringe when this guy says Sodium as he writes K and Potassium as he writes Na!!
Michelle Anderson "gringe"?
u said the phosphates are pumped outside it's the sodium
Good vid
potassium is k+ he kept muddling sodium and potassium up right?
too many mix ups.
Who's the teacher?