This video is amazing. I'm taking a cell signaling class and my professors are incapable of explaining things in an understandable, concise manner like this. So thank you!
Very few professors I have had are good teachers. Knowing a lot about a subject and teaching it effectively are two different animals. Solid gold is the one who does both.
A million thank you for this amazing video! Great and simple explanations. In less than 10 minutes you explained what a professor could not in 2,5h... Superb job! Thank you again!
Thanks a lot, very helpful for my exam on cell signalling. I have just one remark: As I know, protein kinase A has two catalytic and two regulatory subunits, not one, as you said. And in this case there need to be two or more cAMP molecules to activate the PKA
This video is life saving! Struggled to much to keep this map clear in my mind and the only thing that helped is this amazing video. Can’t thank you enough
My ashy dusty musty professor has zero abilities to explain this in an understandable way. she yapps things out as if we are some geniuses that spend days and nights munching on textbooks. Thank you for this. I have been crying for the past two hours thinking I'm stupid.
My cell biology professor used to just read off the slides, or maybe not read off them but she would just repeat exactly what’s on the slides so yeah this really helps
Thanks for explaining these things!!! A friend in my bio class and I were having trouble understanding tyrosine kinases and your video helped us understand it much better!! Thanks!!!
Hello! Thank you so much for this video. If you can, I am a bit confused with lipo, and hydro. On my textbook it mentions that lipophobic molecules can not enter the cell membrane and it will bind to a receptor on the cell. Whereas lipophilic molecules can just enter the cell through simple diffusion. What would be the difference between lipo- and hydro-. Thank you for your time.
I think there may have been an error for the G protein coupled receptors during roughly 2:51 because it says alpha and gamma are anchored but I think it’s supposed to be beta because that’s what’s shared later on, please correct me if Im wrong
Thank you so much for bringing this to our attention, Marwa! I will be sure to pass this along to my colleagues on the Content Team so they can check the details with our Chief Medical Officer. 😊
Is there any rhyme or reason as to why the G-protein coupled receptors pass (dip into) the cell membrane specifically SEVEN times? Really cool presentation!
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?
This video is amazing. I'm taking a cell signaling class and my professors are incapable of explaining things in an understandable, concise manner like this. So thank you!
same my cell biology is really horrible. but not as bad as my organic chemistry prof
Glad to help, Kristin! 🙏🏼
Thanks. Subscribe
@@sandranoel9636 which course u are taking
Very few professors I have had are good teachers. Knowing a lot about a subject and teaching it effectively are two different animals. Solid gold is the one who does both.
0:52 SIGNALING MOLEULES OR LIGANDS
1:45 THREE STAGES OF SIGNALING
2:17 G-PROTEIN COUPLED RECEPTORS
6:17 ENZYME COUPLED RECEPTORS
8:30 ION CHANNEL RECEPTORS
For the culture
Thank youb
This 9+ minute video has answered all my questions on cell signalling
Wow, we hope that our video was able to help, Ibeh! 🥰
I spent hours having a panic attack trying to figure these out and this video finally gave me a breakthrough. Thank you for making this
needed a quick summary before my exam. this video is great, thank you!!!
A million thank you for this amazing video! Great and simple explanations. In less than 10 minutes you explained what a professor could not in 2,5h... Superb job! Thank you again!
You're very welcome, Therese! 💖
The pause between each topic is underatted. ❤️
HOW DO YOU NOT STUTTER/SLUR YOUR WORDS, YOU ABSOLUTE LEGEND?
Best cell signal video on RUclips !!! Very clear explanation !!!
Wow, thanks Michelle! 💖
this video basically summed up around 70 slides of my professor's 99 slide powerpoint. Thank you so much!!!
You're very welcome and it's our pleasure to help in your studies, Lindsay! ❤️
the best introducing video i have ever seen. good luck Osmosis
:)
This video is incredible and extremely easy to understand (at least compared to other cell signaling videos...). Thank you so much!
Glad you think so, Elijah! Our pleasure to help! ❤️
Thanks a lot, very helpful for my exam on cell signalling. I have just one remark: As I know, protein kinase A has two catalytic and two regulatory subunits, not one, as you said. And in this case there need to be two or more cAMP molecules to activate the PKA
Very well done! You made this enormous biology chapter seem easy e nice!
This was surprisingly useful and detailed for a youtube video, normally they only tell what is a receptor.
Glad you think so! 😊
This video is life saving! Struggled to much to keep this map clear in my mind and the only thing that helped is this amazing video.
Can’t thank you enough
Glad it helped, Aya! 💕
This is extremely helpful when needing to learn the foundation of cell signaling!
Thank you! ❤️
This platform is literally providing us with a clear way to comprehend the concepts without any obstacle...
The need!!
Honoured!
Always our pleasure to help, Adina! 💕
Best explanation I heard so far
My ashy dusty musty professor has zero abilities to explain this in an understandable way. she yapps things out as if we are some geniuses that spend days and nights munching on textbooks. Thank you for this. I have been crying for the past two hours thinking I'm stupid.
ASHY DUSTY MUSTY
SAME
Ashy dusty musty lmao. Im def gonna use that
My cell biology professor used to just read off the slides, or maybe not read off them but she would just repeat exactly what’s on the slides so yeah this really helps
Thanks for explaining these things!!! A friend in my bio class and I were having trouble understanding tyrosine kinases and your video helped us understand it much better!! Thanks!!!
Happy to help, Raegan! 💖
I understood in 10 min what i couldn't in an hour ! thank you!
Always loved all their videos!!! I have an exam tomorrow and this just cleared all my doubts. ❤
All the best! 💕
This is the best video I have yet found on this topic.
Appreciate the feedback! 💕💕💕
It's jst an outstanding presentation. Very well done
Thanks so much for this amazing FREE video
This video is more than awesome, it helped me to understand this chapter, thank you!
last hour quiz preparations done, thnks osmosis
Thanks for this ….this channel is the best
Wow, thanks! 💖
This clears up a bit about my present study/paper on RIPK1 and TNF-alpha necroptosis and NF-kB pathway
We hope this helped, Aineeda! 🙏🏼
Great video! You wonder how all these molecules evolved ?
Very good explanation
Thanks! 🙏🏼
this summed everything up in the recent unit perfectly! thank you!
Most welcome! 😊
Now I really understand . Thank you very much
Glad it helped, Nurshifa! 😊
So far the best video very well explained thanku so much:)
Osmosis. I just wanna say thank you. 🙏
Thanks and you're welcome, Basavaraj! 😊
Thank you so much for this wonderful lecture in less than 10min I have understood the signaling pathways in a summarised manner always keep shining 🌟
You're most welcome! ❤️
@@osmosis 😇🎉🌟
because of you, I know I will get an A on this exam next week.
Wishing you the best! 👍🏼💯⭐️
Thank you so much osmosis! that was so helpful for my first medical test
Hi Riva! Our pleasure to be of help! ❤️
thanks for this video.really hope i can explain to the examiner like u did during viva-voce tomorrow haha
Last minute cram gang
It is my dream to speak biology like the narrator
really needed !!! thank you for this amazing content !!
You're so welcome!
Thank you so much...I have recently taken admission in Pharmacy and the subject is physiology and this help me alot❤..thanx again
All the best 🙏🏼
@@osmosis❤
Sir im forever grateful for your videos THANK YOU!!
You are very welcome ❤️
At 4:14 you say "trisphosphate" but it says "triphosphate" on the screen in your diagram.
Thank you for the great summary!🙌💕
thank you for helping out understand the cell signal
You're welcome, Christine! 🙏🏼
Amazing video! It is helpful for understanding signaling pathway.
Glad it was helpful! ❤️
Thank you for the Amazing illustration
In arabic: شكراً جزيلاً على التوضيح الرائع
After seeing this I took osmosis subscription,best decision of my medical carrier😊
Thanks for letting us know, Ananda! ❤️
Hello! Thank you so much for this video. If you can, I am a bit confused with lipo, and hydro. On my textbook it mentions that lipophobic molecules can not enter the cell membrane and it will bind to a receptor on the cell. Whereas lipophilic molecules can just enter the cell through simple diffusion. What would be the difference between lipo- and hydro-.
Thank you for your time.
Thanks helped me to understand somehow
I think there may have been an error for the G protein coupled receptors during roughly 2:51 because it says alpha and gamma are anchored but I think it’s supposed to be beta because that’s what’s shared later on, please correct me if Im wrong
Thank you so much for bringing this to our attention, Marwa! I will be sure to pass this along to my colleagues on the Content Team so they can check the details with our Chief Medical Officer. 😊
will be grateful to you, thank you❤❤
AMAZING video, thank you!
Our pleasure! 🌟
Such an extraordinary explanation
Glad you liked it! 😊
Very grateful for this, thank you so much
You're very welcome! 🙏🏼 ❤️ 😊
Good explanations
My best revision before my exam
Best of luck! 😊
This is so helpful for people like me without a bio background
Delighted to help, Gene! ❤️
Thank you so much sir❤
Great video, thanks for saving me from failing exam
Happy to help, Michelle! Hope your exam went well! 💖
Thank you, UT was perfect and easy to understand❤
Happy to hear that! 😊
Tnk you teacher this video is amazing
Glad to help, Cabdi! 🥰
perfect, time saving video
Happy to help, Mohamed! 🙏🏼
Excellent concept building technique....G protein explained in seconds...
Great! Just hit the point.
Is there any rhyme or reason as to why the G-protein coupled receptors pass (dip into) the cell membrane specifically SEVEN times? Really cool presentation!
amazing explanation..thank you so much.
Glad you liked it. Mihad! ❤️
Thank you for this!
You're welcome, Zandile! 💕
the serine/treonine receptors are serine or treonine receptor, or, serine and treonine receptor?
u r awesome, thankyou for clearing concepts👍 keep it up.
Most welcome! 😊
thankyou this video is amazing and it was very much helpful
You're welcome, Aditi! ❤️
Very well summarized for the complex topics
helped me a lot thank you so much!
Most welcome! 🤓⚡️ 🙌🏼
You’re a real one 🤟🏾
Amazing information!
Glad you think so, Daibayanee! ❤️
Understanding it is so easy😊
We hope this had been helpful! 🙏🏼
great work..........thanks
Very good. Congrats
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?
great video thank you. can you please tell me what program you are using to make these animated videos??
Great lecture!!
Thank you! 😊
Awesome, thanks❤❤
You're welcome, Caesar! 😊
धन्यवाद श्रीमान जी
Thnk u sir for good lesson 🙏
Always welcome, Somaya! 🥰
Thank you so much🙏🙏
You're most welcome, Zahra! ⭐️
What a magic in this video
Amazing video
Thanks! ❤️
Amazing lesson 🇺🇬
Thanks, Kato! 🙏🏼 ❤️ 🌟
Thank you sir
Welcome! 💖
Great video, i dont even speak english but i get it. thankyou
Thank you too! 💖
Boss! You should have been my lecturer. Why am I paying for uni teachers!?? 😓
greate video !!
Great sir 😍👌👌👌
Este vídeo e muito importante para entende sobre celulaas.
Pls i need more light on the Gq subprotein to was too fast with too many words 🙏🏽
Thank you so much ❤️
You're welcome! 😊
Highly appreciate