Semidiscontinuous DNA replication

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During DNA replication, one of the two DNA strands, the leading strand, is replicated continuously, or all at once, in the 5' to 3' direction. The other strand, called the lagging strand, is replicated discontinuously, or in pieces, in the 3' to 5' direction.

This is necessary because DNA polymerase, the enzyme that synthesizes a new DNA strand using a template strand, can only add nucleotides to the 3' end of a polynucleotide strand. Overall, DNA replication is semidiscontinuous.

To begin DNA replication, a helicase enzyme attaches to the double helix and unwinds the two strands, exposing them as templates for replication. The point at which the two strands are being separated is the replication fork.

The enzyme primase attaches to each of the template DNA strands. Primase synthesizes a short RNA primer on each template strand. The primers are assembled in the 5' to 3' direction.

After the primer reaches a certain length, primase drops off of the template strand.
A DNA polymerase molecule attaches to each DNA template strand at the 3' ends of the RNA primers.
Each DNA polymerase begins adding DNA nucleotides to extend the primer in the 5' to 3' direction.

As the replication Cork opens, the DNA polymerase on the leading strand template continues to synthesize a new DNA strand. However, the DNA polymerase on the lagging strand template, which can only synthesize a new DNA strand in the 5' to 3' direction, is moving away from the replication fork.

Therefore, primase must again make an RNA primer on the lagging strand template, and DNA polymerase must continue making DNA beginning at the new primer. This results in a series of short fragments, known as Okazaki fragments, on the lagging strand template.

The Okazaki fragments on the lagging strand template must be connected to form a complete DNA strand. To accomplish this, a different DNA polymerase recognizes and removes the RNA primers and replaces them with DNA.

However, the polymerase cannot form the bond between the DNA nucleotide at the 3' end of one fragment and the nucleotide at the 5' end of the adjacent fragment, so there is a "nick" in the DNA strand.

The enzyme DNA ligase is needed to form this bond and eliminate the nick.

The process of continuous DNA synthesis on the leading strand template and discontinuous DNA synthesis on the lagging strand template continues until the replication fork reaches either the end of the chromosome or another replication fork moving toward it in the opposite direction.

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I have finally understood what’s going on on the lagging strand😅. I’m glad I found this video

pearl-marieandoh

I've watched so many DNA replication videos. This is one of the best. It is simple and the animations shows the processes really well.

alisontomkins

This is honestly the most concise video on the subject that I've seen

TwistRemiss

Thank you so much . This is the only video which has accurately answered the question. Great help for teachers and students in resource poor set up.

mamtalall

literal the only one that actually explains it well

sebastian

After 2 years I came to know why there occurs lagging strand😂. Tnq u for your concise and clear explanation and video

sathyanarayanan

Cleared my confusion about lagging strand and leading strand

kranthikumarindrakanti

I'm so glad I found this video. I have test tomorrow on this

stellac

The lagging strand is not made in the 3' -> 5' direction. Both are made in 5' -> 3 prime direction. the lagging strand just archives this using DNA fragments

Chels-ykox

Best video on DNA REPLICATION ON YOUTUBE ❤❤❤❤❤

BaruchJamil

By far best video for understanding Ozaki fragments.

daniellai

Surprised this video has lesser views despite being the most clear & understandable content regarding this topic.

sheennguyen

Best animation about this topic. I finally understand

Gorkem.demirbs

Finally I found a video which clears all my doubts. Thank you 😊

virajwarang

Finally, I have found an accurately answered video. Thank you so much

drjahon

I saw more than 5 animations to understand this, you made very simple...TYSM 😊

Mahi_

That lagging strand trips me up, I’m studying for the mcat and just reading the book is super confusing, great video representation of DNA replication. Thanks very much.

cozmonauts

Best video I've every watched about dna replication. I finally learned it

hadis

After seeing a lots of videos, at last my doubt about the cause of formation of okazaki fragments in the lagging strand, cleared. Lot's of thanks

abhijit-mandal

This helped a lot, great explaination!

chaitalidasguptamusic

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