00:01
So everyone, in this question we have been given our dna sequence in the 5 prime to 3 prime direction where it is atg g g g t g g g g g t g g g t g g t t g g t g t g t g t g t g t g t g t g t g c c c, g, g, g, g, a, c g, c g, g, g, g, g, and t, g, and here we have the 3 prime end.
00:49
So we know that the rna polymeris basically transcribes the dna in 3 prime to 5 prime direction.
00:59
So that means the rna sequence here will be u, ua, then here this will be c, c, c, g, then it will be c, g, then g, then it will be c g, then g, g, then it will be uuc, c, here it will be c c, then.
01:29
G g, then here it will be c, a, c, then here it will be u -a -u, then here it will be u -a -u, then it will be c -a -u, then it will be a -u, then here it will be a -u -c, then here it will be a -g -u, then here it will be u -a -c, then here it will be u -a -c, then here it will be u - be c -c -a then here it will be g -u c then here it will be c -a -u so this here is the m -r -n -a sequence now we have been said that for the second third and fourth fifth codons write all the possible anti -codons including anti -codons with bubble and ionocene.
02:34
So basically according to the verbal hypothesis, there is flexibility at the 3 prime end of the mrna codon.
02:47
Like here if we have the aug, then the direction would be 5 prime to 3 prime directions.
02:55
So the trna antig sequence must be u .s.
03:00
Uac but according to the verbal hypothesis this g can code with another nucleotide at the 5th prime of the anticoidon of the trna so here if the anticoidon is agcu or i know seen and the codon that is the mrna at the 3 prime end here.
03:30
Here adenine can form the complementary bond with only uresil.
03:36
But guanine can form bond with urosil or cytosin and cytosin can form bond with bond with guanine.
03:44
Here urecel can form bond with adenine or guaninin and ionosin can form born with adenine, urecile or cytosin.
03:54
So here we can see that.
03:57
The third codon is g c...