00:01
No, no answer this question.
00:02
Let's talk about dna replication.
00:05
It says which enzyme does each other following.
00:07
Here, half here, and twist the separate stance, and this is for the enzyme helicase.
00:14
So, for example, if this is your dna molecule, we're also being, are going to be answering this question here, as well as we place the function of these enzymes here.
00:24
So this is your original dna molecule.
00:26
If you're going to start your dna replication here, then your enzyme helicase is going to come here, and it is going to open your dna, creating a replication form like this, okay? so your helicases are opening your dna molecule like this.
00:46
Then it says, holds dna strands apart, and this is for the single strand binding protein.
00:54
As your helicases open your dna molecule, creating your replication bubble, then you're going to have some proteins that are going to hold these two strands open in order for them not to collapse, okay? so this is a function of that single -stranded binding product.
01:10
Now, then you have synthesizes your rna primer.
01:13
So in order to build your new daughter strands at both sides here and also here, then you need to, you first need your dna polymerase that is the enzyme as possible for polymerizing your new strands.
01:27
But that dna polymerase cannot start synthesizing dna out of nothing.
01:32
It requires a short segment of rna, and that rna is called primary.
01:36
So in this case, you're going to have the enzyme primates.
01:42
This enzyme primates is going to set primers that are made of rna...