![]() So this strand on theīottom right over here which we will call our leading strand, this one actually has a So, first you unwind it, then the helicase, the topoisomerase unwinds it, then the helicase breaks them up, and then we actually think about these two strands differently, because as I mentioned, you can only add nucleotides going from the 5' to 3' direction. Here, this is a thymine and it would break that Hydrogen bonds between our … Between our nitrogenous bases, in this case it's an adenine But what helicase is doing is it's breaking those These things are actuallyįar more fascinating if you were to actually see a- the molecular structure of helicase. Idea is it unwinds it, so then the helicase enzyme, and the helicase really doesn't look like this little triangle Then they get back together, but the general high-level And the way that it actually works is it breaks up parts of theīack bones temporarily, so that it can unwind and So in order for us to unzip the zipper, we need to have an enzyme that helps us unwind And it actually turns out, the more that we unwind it on one side, the more tightly wound So let me write that, it is tightly, tightly wound. So the first thing that needs to happen, right over here, it's all You'll hear discussed when people talk about DNA replication. Of the different actors, but we're showing you the primary actors, at least the ones that But there's a lot of- in reality, it is far moreĬomplex than just saying "Oh, let's open the zipperĪnd put new zippers on it." It involves a whole bunch ofĮnzymes and all sorts of things and even in this diagram, we're not showing all ![]() You could really view thisĪs if this is a zipper, you unzip it and then you put Needs to get split, and then we can build another, we can build another side of the ladder on each of those two split ends. The two sides of our helix, the two DNA, the double-helix This in previous videos where we give an overview of replication, is the general idea is that Now the first thing, and we've talked about So this is the 3' end, and 3' end of it and then So this and this are the same strand, and this one, if you follow it along, if you go all the way over It all the way over here, it goes, this is the corresponding 5' end. Here the 3' and the 5' ends, and you could follow It's somewhat natural, in it's natural unreplicated form, and you could see we've labeled So here is just our of our DNA strand, and it's, you can imagine Well let's look at thisĭiagram right over here that really gives us an overview of all of the different actors. So what am I talkingĪbout with polymerase. You can't go from theģ' to the 5' direction. If you're only adding on the 3' end, then you're going from theĥ' to the 3' direction. Is you can only add nucleotides on the 3' end or you can only extend … You can only extend DNA We wouldn't be able to add going … We wouldn't be able to add going that way. So if we were talkingĪbout this right over here, we would only be able to add … We would only be able More and more nucleotides to grow a DNA strand it can only add nucleotides on the 3' end. And this is gonna be really important for understanding replication, because the DNA polymerase, the things that's adding So this is the 3' endĪnd this is the 5' end. Parallel to each other, but they're oriented These two backbones, these two strands are What we're talking about when we talk about theĪntiparallel structure. So this is the 3', this is the 5', this is the 3', this is the 5'. Notice three, this phosphateĬonnects to a phosphate, this connects to a 3', then it connects- then we go to the 5'Ĭonnects to a phosphate. So this end is 3' and then this end is 5'. it is going, let meĭraw a little line here, this is going in the 3' to 5' direction. So this side of the ladder, you could say, it is going in the. That's the 4' carbon, and that's the 5' carbon. That's the 2' carbon, that's the 3' carbon, So we have ribose right over here, five-carbon sugar, and we can number the carbons this is the 1' carbon, Happening on the riboses that formed part of this This is a zoom-in of DNA, it's actually the zoom-in from that video, and when we talk about the 5' and 3' ends, we're referring to what's Of a quick review here, just in case you saw it but Unfamiliar to you, I encourage you to watch the video on the antiparallel structure of DNA. ![]() Of the DNA molecule, and if that is completely It, I'm gonna talk a lot about the 3' and 5' ends A little bit in more depth about how DNA actually copies itself, how it actually replicates, and we're gonna talk about the actual actors in the process.
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |