Very useful video. Thank you. The light above you is incredibly bright and white reflects light so much. This makes it harder to watch the video even if I dim the background light of the screen. Yet again it is needless to say you do an amazing job.
Fantastic explanation. Thank you! Came across stem loop structures while studying about Iron Responsive Elements (IREs) in Iron Homeostasis. IREs are stem loop structures.
There are these types of enzymes called aminoacyl tRNA synthetase which correctly pair amino acids to their corresponding tRNAs. There are 20 types of these enzymes, one for each of the amino acid. The synthetase recognizes and binds the amino acid and any applicable corresponding tRNA (usually multiple possibilities for the tRNA due to redundancy in genetic code). The tRNA tertiary structure is important because it has to be able to bind to that enzyme. So that is how the tRNA "finds" its amino acid. Once the tRNA is bound to its amino acid, as far as I know things pretty much proceed chemically. The tRNAs bounce around until they bind with the ribosome and mRNA. So its all about molecules being able to interact or bind with one another. So that's what I reckon but I'm not an expert though.
Very useful video. Thank you. The light above you is incredibly bright and white reflects light so much. This makes it harder to watch the video even if I dim the background light of the screen. Yet again it is needless to say you do an amazing job.
thank you! Finally I have an idea about stem loop structure. My lecturer, idk what's he rambling about >.
Fantastic explanation. Thank you! Came across stem loop structures while studying about Iron Responsive Elements (IREs) in Iron Homeostasis. IREs are stem loop structures.
You and your team are awesome!
Very nice sir and extremely helpful lecture 🌸 thankyou
great video. thank you for explaining stem-loop formation in simple-to-understand terms. Well done : )
you explained this very well, thank you so much!
very clear explanation, very nice lecture..thankyou very much
You are the best👍
Your videos are very helpful.. Thank you :)
Great explanation 👍
Thank you very much! It's a wonderful video!
fantastic
thank you 😘
helpful
Interesting...
Plz make video on dna damage and repir
Thank you :)
Thank you! How does a tRNA tertiary structure 'find and carry'' a specific amino acid to a ribosome exactly?
There are these types of enzymes called aminoacyl tRNA synthetase which correctly pair amino acids to their corresponding tRNAs. There are 20 types of these enzymes, one for each of the amino acid. The synthetase recognizes and binds the amino acid and any applicable corresponding tRNA (usually multiple possibilities for the tRNA due to redundancy in genetic code). The tRNA tertiary structure is important because it has to be able to bind to that enzyme. So that is how the tRNA "finds" its amino acid. Once the tRNA is bound to its amino acid, as far as I know things pretty much proceed chemically. The tRNAs bounce around until they bind with the ribosome and mRNA. So its all about molecules being able to interact or bind with one another. So that's what I reckon but I'm not an expert though.
@@backstreetfan2887 Thank you for your answer :)
thanks
Make a video on tetraloop structure
Please I can't see your notes
Does stem loop and hairpin mean same?
I love the look at the camera at the end of the clip xDD had me laughing..
sub.