Do inverse agonists cause the opposite biological cell function to be activated compared to antagonists? Or do they rather cause a more pronounced neutralization of the receptor?
Antagonists are the molecules that prevent the activity of agonists. But there can be a basal activity of the receptor in the absence of an agonist too. Inverse agonists actually stop the basal activity and make the receptor totally inactive.
Why is this the clearest animation ive ever seen
The best, most beautiful medical animation I've ever seen! Marvelous~
the nicest medical animation that ever seen, good job
Nice animation. Marketing material. Too bad it did not go further as to explain the mechanism.
That's a really great animation.
This just blew my mind. The future is going to have some interesting drugs to aid the body in fighting diseases.
why is this animation better than Dr Who episodes?
THE LIGHTNING LOLOL
Hahaha
Action potential
@@tylerbradley8124 it's not a nerve.
@@samirjamil3324 they showed the synaptic cleft right before
which have GPCRs (metabotropic)
wtf this is genuinely a beautiful animation, do you know who directed this??
This is incredible.
Do inverse agonists cause the opposite biological cell function to be activated compared to antagonists? Or do they rather cause a more pronounced neutralization of the receptor?
They have affinity but negative intrinsic activity dose response curve will help in uñderstanding
Antagonists are the molecules that prevent the activity of agonists. But there can be a basal activity of the receptor in the absence of an agonist too. Inverse agonists actually stop the basal activity and make the receptor totally inactive.
the GPCR
animation is best
Excellent animation
Wonderful animation
That is great.
what is the background music pls
Thank you so much 😭😭😭 u helped me 😭😭
so useful
تريد ان تطلب الله عليك بالترجمة فانها مفيدة ورئعة
very psychedelic love it
🙏🏻
Please translate into Arabic
Supb
اللله7