2-Minute Neuroscience: Long-Term Potentiation (LTP)

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Information 2-Minute Neuroscience: Long-Term Potentiation (LTP)

Title	:	2-Minute Neuroscience: Long-Term Potentiation (LTP)
Lasting	:	1.59
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Views	:	365 rb

So, does this raise the threshold when it happens again?
Comment from : Mattaku

it seems LTP comes in collage, so why i am i studin it in 10th reason : cus its fun thanks for the concept br
Comment from : Atharv Pateriya

lol
Comment from : 이하윤

Ok, so AMPA receptors respond to glutamate and cause depolarization But its not all or nothing More AMPA receptors cause a greater depolarization, or a faster depolarization But definitely increase sensitivity to glutamate Is this because the receptors only respond to glutamate in a very small area? So more receptors will cause the cell to respond to the amount of glutamate released more accurately, by allowing it to cover a wider area and respond to a higher percentage of the actually released glutamate? Or do the receptors only allow a very small amount of ions through? Meaning more receptors just means that when they DO activate, more ions are allowed through, speeding up depolarization?
Comment from : joshua miller

Not well explained
Comment from : rgudduu

Beautifully explained!
Comment from : Steve Robson

love u thanks for this
Comment from : Luisa M

I just really couldn't say how much really this simple brief video made me really understand every point of the book explaining this kind of LTP mechanism , from the middle east Jordan university , rehabilitation college , 2nd year ,,,,,,,salutes to you
Comment from : psj free

Hi, my lecturer said something about EPSP being greater with protein synthesis inhibition Can you explain why?
Comment from : Pearl

Thank you so much It's very useful
Comment from : Bella Bella

Very nicely done! thank you!
Comment from : Andrew P

Тow I understand why it is necessary to constantly repeat what I have learned
Comment from : Катерина Левченко

The fact that I can understand these videos in great detail while doing indica edibles means you're doing a good job of explaining it lmao GREAT CHANNEL!!!!!!!!!
Comment from : PoisedPerson

Thank you! I finally understand it
Comment from : JenzAr

The plug
Comment from : Jon Brooks

thank you so much, I got stuck on what was happening with the AMPAR's - this video really helped
Comment from : queenie

see, I had to watch at 075x speed but this makes so much more sense than the lecturer & the 4 neurosci books thanks!
Comment from : Averone

fantastic - thank you
Comment from : sweetpea

What is the signaling mechanism that increases the neurotransmitter release?
Comment from : Porchen Hund

Great explanation
Comment from : Daily Dose of Medicine

Thankyou very muchbrIt's short but it's very amazing and completely
Comment from : امیر محمد زند

YOURE AN ANGEL SENT FROM ABOVEE
Comment from : sarah sh

1 minute if i put it in 2x speed
Comment from : Adrianna Zhang

dude, this is just incredible! That is definitely the fastest and most easy to follow explanation of LTP I've seen! Thanks a lot!
Comment from : K Rahul

#AmityBumble_ in ≈Autumn 2019brDue to #LongTermPotentiation
Comment from : Curated Playlists℠

But how neuron "sense" there is lack of AMPA receptors , i mean how calcium influx creating new receptors ?
Comment from : Zahid Doğan

When my assignment is due in one hour so I have to watch this at "05-Minute Neuroscience" speed instead
Comment from : Penélope Stuart

Wow thank you for this video
Comment from : Kat Gerasimenko

My lecturer who is experienced in the field of neuroscience took 15 minutes to explain this concept in the most convoluted and confusing way possible and no one understood it It took you 2 minutes to explain it in a clear and simple way and now it makes sense Thank you
Comment from : YellowSub0

Firstly, I love your work (is there an echo in here?) It'd b great to have one separating E-LTP from L-LTP
Comment from : toeknee see

Thanks I always appreciate the clarity brevity and effort you give There’s a lot of hard work in your short clips 👍👏👏
Comment from : Eric Wieckmann

Great video!
Comment from : sravya pailla

Would all APs active NDMA? Or would it require multiple/high frequency APs?
Comment from : Hobbes

I still dont get it Someone explain
Comment from : Q

very informative, thank you
Comment from : Ryan Levin

But what does calcium do in peticular?
Comment from : Martin

Hi, Does this only happen when glutamate is the neurotransmitter or it can also happen when dopamine is the neurotransmitter used? If it is only for glumate, do you know any other mechanisms which causes Long Term Potentiation in dopaminergic synapses? Thank you
Comment from : Adrian Gil

Khan academy
Comment from : john aram

where are you rushing try to chill
Comment from : Siphesihle lindokuhle

watching this video gave me LTP in my brain ABOUT LTP
Comment from : Malignant sparrow

Glycine is also involved with the NMDA receptors
Comment from : Tim Somerville

More detail - LTP involves the PKC and CaMKII PKC will phosphorylate AMPA receptors at the S818 GluR1 subunit, and CaMKII will phosphorylate the S831 GluR1 subunit This increases opening probability and also helps to recruit more AMPA receptors into the postsynaptic terminal
Comment from : Warren

I just came across this series of videos! Brilliant! I wish I had found them at the beginning of my graduate degree
Comment from : vastaik12

So concise and easy to follow Keep it up this is awesome
Comment from : Chris McGeoghegan

IM SO DUMB but this helps
Comment from : Eloise Cobby-Smith

What an awesome video! I was taught that the EPSP resulting from the activation of local AMPA receptors does not produce a strong enough depolarization to expel the magnesium plug and that it is actually a back-propagating action potential generated by the axon hillock that provides the necessary depolarization to remove the magnesium ion Am I mistaken?
Comment from : Anthony Napodano

Such a good video
Comment from : Neal Thakkar

rtu
Comment from : Beats By Clover

Moon man moon man here we come
Comment from : Beats By Clover

amazing video!!! subscribed <3
Comment from : andrea

Thank you Needed to learn this quick for my final
Comment from : Isabel Okoro

Our brains are so amazing You made a video about LTP that was memorable and caused LTP in my neurons so that they are more sensitive to impulses which arise when I think about LTP
Comment from : sunshine

I've never commented on a Youtube video in the 10 years I've been using it, but this is straight up incredible work Keep em coming
Comment from : Nino Oshea