00:01
In order to answer this question, let's talk about base pairing goals.
00:03
Remember that when we talk about base pairing rules, we talk that adenine paired with timing in dna, but with uracilin rna, and cytosing always pairs with oneing.
00:15
So in this case, you have this segment of dna.
00:19
So let's first transcribe this dna to produce your messenger rna.
00:24
So following base pairing rules, you're going to have here, adenine, uracil, one, urazil adenine, guanin, guan, uracil, aden, uracil, cytosine, aden, aden, uracil, cytosin, aden, uracil, cytosin, and wading, okay? so, again, thymine pairs with adenine with thymine, but as this is your messenger rna, you have uracil in this case, okay? so you have u, then c with g, a with u, t with a, c with g, a with u, t with a, c with g, t, a, a, u, c with g, g with c and c with g.
01:05
So this is correct, okay? this is your messenger rna.
01:08
Now, you have to arrange your messenger rna in triplets.
01:11
It means in groups of three.
01:13
So arrange these letters in groups of three, like this.
01:19
Like this, okay? now that you have your messenger rna, you have to translate this messenger rna using the genetic code table, okay? so you can look for in internet for the genetic code table, and you're gonna find a, a table with all of the codons, each of these triples is called a codon, and all the amino acid that each of these columns can code for.
01:41
For example, a .ug .g.
01:42
Code for mechion.
01:44
Then you have that uag.
01:46
Uag is special because it is a stop codon...