Review DNA replication and compare Prokaryotic DNA Polymerases to Eukaryotic DNA polymerases

seen from T1
seen from Canada
seen from United States
seen from Philippines

seen from United States
seen from Türkiye
seen from United States
seen from China

seen from Australia

seen from Malaysia

seen from United States
seen from Brazil

seen from Malaysia
seen from United States

seen from Malaysia
seen from United States
seen from Canada

seen from United States

seen from United States

seen from United States
Review DNA replication and compare Prokaryotic DNA Polymerases to Eukaryotic DNA polymerases
So I’ve been studying DNA replication at A-Level standard Biology, and since I had so much trouble understanding the concept of it all (particularly the differences between the ‘Leading Strand’ and the ‘Lagging Strand’), I thought I’d upload this here in the hopes that it might aid other people studying the same thing!
In short, nucleotides can only be attached to the DNA strand from the 3′ end, so the strand that has a 3′ end can do this easily and fluidly; this strand is the ‘Leading Strand’. The other strand - the one that has a 5′ end - has to be replicated in stages, and so Primers place free nucleotides further along the strand, from which more can be placed in a 5′ to 3′ direction! each little segment of replicated nucleotides is called an ‘Okazaki Fragment’, and these are finally joined by Ligase!
It can be kind of hard to grasp, so this animation should make it easier. It really is something that is better understood once you’ve seen it visually, after all!! ☆
I hope this is at least helpful, and good luck studying people!
please retain the caption! it gives a better understanding of the post! ♡
Reviewing for Biology
sam talks biology 4
The lagging strand is (and I quote Hank Green @edwardspoonhands of CrashCourse Biology) a total “scumbag,” don’t trust him at all. He does everything backwards in terms of DNA replication and makes life harder for students The leading strand, now THAT one knows how to get work done and make things easier for students But unfortunately we still need both strands so we gotta deal with the lagging strand :’(
DNA Replication Process