It amazes me how our body already has the B cells to fight specific antigens. It shows how God knew beforehand that we would be attacked by these antigens.
@@miriam_ness9008 The process of B-cell differentiation is actually a lot more complex and interesting. The cells begin with the same genome, but a process called VDJ recombination rearranges DNA segments randomly to make the different variants. The vast majority will never find a suitable antigen. The ones that are most fit to fight an infection reproduce and spread throughout your body (like the video shows.) Well, if they're not too late that is. Diseases like Ebola attack too fast for the adaptive immune system in most cases =(
@@lordofthecats6397 is it truly random? I've read it's almost impossible to obtain a large series of randomly generated numbers, could we use these randomly generated DNA sequences in cryptography? One can always dream. 😊
@@Bismarck666 Well, technically nothing is "truly random". With a big enough computer you could probably recreate these events in a molecular dynamics simulation. There are much easier/faster ways to generate cryptography-grade random patterns, such as lava lamps!
just love these animations!
makes studying these processes double the fun.👌
What did I just saw? It is unbelievable and super realistic. There is nothing better than this
No words or narration is needed if this type of awesome video is uploaded 😍
Thanks thanks thanks a lot ❤
Wow... Really I felt blessed to study Biotechnology
Extremely realistic!
Loved the background noise!!
It gave me chills, but that's on me.
Great animation as always, guys. Love seeing this stuff at work.
Love this animation. Would it be possible to expand it into the development of memory cells as well?
The antibody produce by B-cell is IgM because it is pentavalent.
Generally first antibody express on B-cell is IgM and sometime IgD.
God made us so special 🙏🏾
It amazes me how our body already has the B cells to fight specific antigens. It shows how God knew beforehand that we would be attacked by these antigens.
@@miriam_ness9008 The process of B-cell differentiation is actually a lot more complex and interesting. The cells begin with the same genome, but a process called VDJ recombination rearranges DNA segments randomly to make the different variants. The vast majority will never find a suitable antigen. The ones that are most fit to fight an infection reproduce and spread throughout your body (like the video shows.) Well, if they're not too late that is. Diseases like Ebola attack too fast for the adaptive immune system in most cases =(
@@lordofthecats6397 is it truly random? I've read it's almost impossible to obtain a large series of randomly generated numbers, could we use these randomly generated DNA sequences in cryptography?
One can always dream. 😊
@@Bismarck666 Well, technically nothing is "truly random". With a big enough computer you could probably recreate these events in a molecular dynamics simulation. There are much easier/faster ways to generate cryptography-grade random patterns, such as lava lamps!
nice animation thanks
Really incredible very thanks
Great video, thanks!
Wheres the memory cells? :(
Good one
Last m kon tha ye .. jo engulf ekr rha tha ??
useful but creepy in the beginning
O.m.gi lovvvvvveee ittttt so much
Bruh this is my username
Fucking ganked! Gtfo! Play of the Game
STEAMROLLD!!!
What the heck is that?👎👎👎👎👎👎👎👎👎👎👎👎👎👎
Amazing !! great work