DNA Translation | Termination (3 Stop Codons) and Release Factor
HTML-код
- Опубликовано: 9 сен 2024
- Join our MCAT Study Group: groups/...
Check out more MCAT lectures and prep materials on our website: premedhqdime.com
Instructor: Dave Carlson
Translation Part 4 - Termination Phase & Release Factor
Now I'm pretty sure I'm going to earn that hundred THANKS TO YOU!
You're welcome!
dislikes are from princeton, kaplan, khan and exam krackers
This was so helpful and easy to understand thank you!!
Do you know how much I love you for making translation so easy for me
Saved my life for this genetics exam!!!
Great video. Explanation was very useful for upcoming exam.
I appreciate your time and wonderful explanation.
Thanks a lot..appreciate it!
Well understood !thank you
Thanks John Arbuckle from Garfield, this was genuinely very helpful
You are annoying
You go away
You are gone
😂😂😂😂😂
But we'll always be here!
Nice Tip i m one person to follow ur discuss well.but incase thanks a lot Sir
Sir/Legend🙌😭🔥.
This was really helpful! Thank you.
Thanks😍
The 2 non-standard amino-acids (O = Pyl = Pyrolysine and U = Sec = Selenocystein) are not found in Genetic code table.
They are translated by the stop codons UAG and UGA respectively.
Wish you covered those also in your video.
made it very clear. thank you
my textbook says the release factors occupy the P site, not the A site. What is the truth? :(
the amino acid is supposed to be located on the 3' or stem acceptor ?
so why is it on the 5' in your board
thanq sir!!!💫💖💖
This is nice and explanatory 🌚
But I'm looking for a video for glycolysis...help!!!
👍👍👍
👍👍👍back atcha!
U are annoying, U go away, U are gone haha best way ever best way ever to put things into brain
After listening to this explanation my contention is that you have to be an in depth scientist to understand any of this. I hate to give a negative reason but this need to be given to us in a more day to day example in order for people to understand.
He is explaining the technical mechanisms of translations, it can't get simpler than this. That's just what the subject is. You can learn human genetics of diseases if you want to learn it more applied, like problems in transcriptions/translation for instance, and how they can manifest and affect the person in a larger sense