00:01
Hi, so there's an image showing the transcription in translation machinery.
00:06
The first, the sequence of coding strand is given.
00:12
So this is 5 prime g g g g g a g a t 3 prime so all these sequences are given now the dna template now the template is strand sequence will be 3 prime c -c -a c -t -c t -t -a c -t -t -t -t -t -g -a -t -a and acgt -c -a to 5 -p -p -n.
01:10
Now the template strand will be this and the mrna.
01:14
The mrna is just similar to the coding strand sequence.
01:21
Only there's uracel in place of timing.
01:25
So this will be 5 prime g -g -u, g -a -g, a -u, g -a -u, g -a -a -a -c -u, a -c -u, and 3 -prime.
01:45
Now the corresponding sequence on the t -r -n -a -a -a -t will be 3 prime cca c uc then uua c ua c ua c u u ga and uaa then this will be acg and this will be uca 2 5 prime and amino acid 3 letter sequence will be gly this c c g g gu it will be gly now g lu the amino acid will be with respect to the mrna sequence so this will be glygluatamine and this will be asparagine a aau and this will be glutamic acid again sorry this one also was glutamic acid and this is threonine and this is is isocene this is cysteine and the next one is cereine and the amino acid one letter will be, okay, let's see, this is g, glycine stands for g, glutamic acid stands for e, this sparogene stand for n, this is e, then this is t, then this is i, this is c, and s, so it becomes genetics.
03:14
Now, the first part, what is the correct order of central dogma? so it will be dna to m rna.
03:25
To protein.
03:27
This is central dogma...