Good question! So the main criteria is that you have to use a strong transcrption factor which initiates transcription of your reporter gene. In that case here they used Gal4p transcription factor: link.springer.com/protocol/10.1385/1-59259-762-9:247
Hey thanks a lot for this brilliant video but I have a doubt here.... we take 2 components of the transcription factor AD and DBD and bind the 2 proteins one to each.......how can we say the function of the 2 components does not get altered when one of the proteins is attached to it? Pl help me understand
wow that's a very elegant system. Does it mean then that the proteins need to be taken up into the nucleus in order to be tested, is there limitations in terms of size and charge?
Every other source i found doesn't mention anything about Gal4AD recruiting the polymerase, they just mention that transcription happens. Do you happen to have any sources that show that GAL4AD does indeed recruit the polymerase?
OK so i have 2 questions i hope im not to late 1. how can you bind a protein to DBD or AD 2. what are the usses of this also i very much like your channel
Matevz Kosutnik thanks for your question 1. you synthesize a DNA fragment where both sequences are connected and encode a protein with is ´chimericˋ meaning a novel protein out of two individual proteins which are linked via peptide bonds. 2. you can test whether protein A is interacting with protein B (if so, you generate a reporter gene expression)
Y2H is so much easier to comprehend now. Thank you so much for covering this topic!
This is the best Y2H video I've come across that actually makes sense!
Thank you so much for your clear and unambiguous explanations.
This video is a national treasure.
Brief but clear enough to understand!
Easy to understand explanation. Thanks Henrik's lab!
This is one of the best videos on Y2H. Thank you for making this.
Very well explained in a super simple way. Really liked it!
Great intro into Y2H, clear and concise! Thanks!
This is the best Y2H video on youtube - so easy now to understand, thanks a lot!
Thank you very much Henrik! You are doing a wonderful job with your videos.
Thanks!
Clear, concise, helpful! Thanks!!
This was so helpful as I am doing a project right now. Thank you!!
So clearly explained! Thank you!!
Vielen Dank, das war richtig gut erklärt!!
Helped in my understanding thank you
Very clear explaination! Big thanks
Best explanation ever!
You are a life saver. Thank you
danke! endlich mal ein verständliches video :D
Very helpful, friend. Thank you muchly!
Nicely explained. Thanks a lot! Is there a particular transcription factor used for this? Or a criterion for choosing the transcription factor?
Good question! So the main criteria is that you have to use a strong transcrption factor which initiates transcription of your reporter gene. In that case here they used Gal4p transcription factor: link.springer.com/protocol/10.1385/1-59259-762-9:247
Hey thanks a lot for this brilliant video but I have a doubt here.... we take 2 components of the transcription factor AD and DBD and bind the 2 proteins one to each.......how can we say the function of the 2 components does not get altered when one of the proteins is attached to it? Pl help me understand
Awesome, thank you for the clear explanation
Very nicely explained.
Very well explained!!!thank you
Thank you. Wonderful explanation.
It’s very helpful, thank you so much.
finally i got it .
thank uuuu .
Allah bless you ❤
This is a great explanation, thank you so much!
thank you so much, so clear and concise!
Excellent explanation ❤
wow that's a very elegant system. Does it mean then that the proteins need to be taken up into the nucleus in order to be tested, is there limitations in terms of size and charge?
Thanks so much for this helpful video!
Thank you so much, it helped me so much!
Every other source i found doesn't mention anything about Gal4AD recruiting the polymerase, they just mention that transcription happens. Do you happen to have any sources that show that GAL4AD does indeed recruit the polymerase?
Nice presentation, thank you, make more videos on rdt
Just amazing👍👍👍👍
very good explanation, thanks
Richtig gutes Video, vielen Dank!! 🙏🏼
Freut mich wenns geholfen hat!
RNA Polymerase binds to the promoter and transcription factors bind upstream of the promoter.
Well explained thanks ❤❤❤
Does the bacterial adenylate cyclase two-hybrid (BACTH) system also utilise this concept?
so helpful, ThankYOU
Easy to understand good job
Thnx a lot sir...it helped me a lot in undrstanding this concpt💖💖💖
Perfect!
Thanks alot, it was very useful
Great video thanks!
clear very much
OK so i have 2 questions i hope im not to late
1. how can you bind a protein to DBD or AD
2. what are the usses of this
also i very much like your channel
Matevz Kosutnik thanks for your question
1. you synthesize a DNA fragment where both sequences are connected and encode a protein with is ´chimericˋ meaning a novel protein out of two individual proteins which are linked via peptide bonds.
2. you can test whether protein A is interacting with protein B (if so, you generate a reporter gene expression)
Hi nice video!
Hab eine Frage
Also dient dieses System lediglich für die Erkenntnis ob Protein a und Protein b interagieren?
Ist im Normalfall wirklich ein Verfahren um Interaktionen von zwei Proteinen zu checken, ja!
Thank you it's really clear !
Good explanation
clear explanation
Thank you ❤
amazing
Very clear thank you so much
Thank you so much.
Perfect❤
Thank you so much!
thank you very much bro
Thanks man
Thank you
danke Bruder ich küss dein Auge fürs video
Thanks a lot
U r great
Thank you!!!
GJ!
love u
Thank you so much! I liked your video and it was at 666 likes, so sorry if i ruined it!
You did not! The goal is definitely a 1000 likes :D
Ooooooossaaaammm
i love you
You can discuss this with my girlfriend :D
Thank you so much, ths video helps me a lot!
Thank you
Thank you
Thank you