cAMP - ATP, ADP, cAMP - Adenylate cyclase - Protein Kinase A - G-protein, Cell Signaling - Physio

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You have brought forth joy and passion that I have been lacking this semester. Thank you.

I have epilepsy and miss a lot of my lectures due to seizures, your videos have helped SO much in me being able to learn biochemistry and medicine. Thank you! You make it so entertaining as well

EXCELLENT resource to put concepts together of what 2 textbook, paid courses and expensive books can offer. After watching your video I feel that I can practically track where the process begins and ends forward and backward. Forever grateful. Thank you

Of all the videos and articles I read this made the most sense. Thank you for breaking it down, and making it fun with your side comments. Really helped me grasp the concept!

i love your videos. it makes pharmacology fun and a "lil bit" easier. please keep making more. you're the best

I've been searching for videos on cAMP, cGMP, and found some very good ones but I wanted to see if you also had a video on this subject, and I found it! Thanks for your effort. Funny, repetitive, really makes me understand better.

You are so funny and you expalin these concepts so well and so clearly! I love this video, thank you sooo much 💖🙌🏼

Holy shit!! You are an amazing teacher!

In the first three minutes i got all my confusion solved, the confusion that has happened after reading a university pamphlet for hours nonsense!

I love your videos so much!!! I am preparing for my MCATs and I watch your videos to deeper learn topics. Please keep making more! Thank you for all your help!

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Your videos are simply amazing. I have a much better understanding of many topics including cAMP!

I bet the plaquenil video wld get you lots of views esp with zpac! Even though it’s “off label” hard for lay pll to understand the ramifications of these meds! You can explain it so much better for us all!

I really love this video,that makes sense .

"Pharmacology makes perfect sense once you understand what the flip you're talking about!...." I felt that!!

I can't believe I finally understood this!!!! Thank you so much 💓

Nice explanation thank you so so so much

i love the way you make it ez to understand
From Vietnam with luv ❤

thank you for this video its perfect you're saving lives

❤ love your vibes How to explain and I love your voice more

Thank you so much! I've been stuck confused and didn't want to watch this video coz it's longer than the other cAMP TH-cam videos by like 15 minutes. But I was confused even after watching them so I wasted my own time and here I am.

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Everything is soo clear after watching this
Thank you so muchhh

The way you talk so unique, funny, beautiful. ❤

I noticed a mistake at 13:05. You say Ca+ channel blockers 𝐢𝐧𝐜𝐫𝐞𝐚𝐬𝐞 cardiac contractility, however, the drawing states that it 𝐝𝐞𝐜𝐫𝐞𝐚𝐬𝐞𝐬 (this is correct).

Thx. Beautifull lecture!!!

Hi...at 12:10 you say the cAMP causes vasodilation and decrease BP and also you say..via RAAS pathway vasoconstriction occurs and BP increases. Which one is predominant?

This is amazing. Thank you!

just of curiosity are those receptors receiving information outside the membrane which because of the signal they RECEIVE, the START the process of producing the cAMP? , are they the G protein couple receptors?

Pessimistically acknowledging the power of a smile.

PDEs are also of different types...There is PDE1,2,3,4.Could u shed some light on the location?..are they all present in the cytoplasm?

INCREDIBLY AMAZINGGGGG

if you use b-blocker, which means b1 receptor is not working, so no stimulation of Gs, so no cAMP. no cAMP means contractility is decrase and vasoCONSTRICTION, no????
means b-blocker can cause vasoconstriction leads to increase BP
please correct me if i misunderstood

Wowwww...just loved it

I laughed when you said "it's common sense" 🤣

cAMP acts on smooth muscle of blood vessels and cause vasodilation and a decrease in bp. On the other hand it increase angiotensin ii and aldosterone and causes vasoconstriction and salt and water retention and increase bp. So which is the predominant effect?
Please help me out.

Lovely sir

Really helpful

this was perfect

Thank u for this video and please teach us the biochemistry

HAHAHAHA your wit tho 🤣🤣 tbh this is the way I study too. Lmao "this is common sense" HAHAHA

Very informative.

How cAMP contract heart muscle and dilate smooth muscle??

I am not even studying pharmacology this year, but this was nice

Is there a place i can get the transcript of this lecture from ? 18 minutes video made me understand so much about antiplatlets therapy, and some of the most common shock hf interventions we take ,, and even aminophyline toxicity .. thank u man

Amazing video ❤
Btw love your accent, are you egyptian? 😂

Hello ! Anyone can explain me why a2 receptor -> Gi pathway -> low c AMP, but it cause relaxation?
(Source: b. α2 Receptors
are located on sympathetic postganglionic nerve terminals (autoreceptors), platelets, fat cells, and the walls of the GI tract (heteroreceptors).
often produce inhibition (e.g., relaxation or dilation).
Mechanism of action: Gi protein, inhibition of adenylate cyclase and
decrease in cyclic adenosine monophosphate (cAMP). )

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can you make video on cGMP mediated vasodilator

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شرحك ممتاز

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Super

This easier to understand then my teacher 💀

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great

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L accent