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.
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. 😊
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!
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
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.
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
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!
Hi! You may adjust the playback speed to a more comfortable pace when you click on the settings at the bottom of the video player! We hope this helps! 😊
hi is there any transcript of this video out somewhere on google or any other website. my learning process is so complicated , I use to write word by word things which takes so much of my time and them learn them for exams and sometimes I have got problems with some other videos because my answers in some answers are exactly the same as in the videos and they take it as a plagiarism. do you know if the word that you are using and I write down word by word can be detected by plagiarism tools.?? thanks
Hi! We do have video transcripts available at osmosis.org. Please feel free to sign up for a free trial account to access this and explore our platform. 😊
Hi Adam! Thanks for asking! While we don't have pdf versions of our videos, we do have high-yield notes that you may access at osmosis.org. Hope this helps! 😊