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DNA Replication Explained With Zipper Model

Imagine DNA as a zipper

Prokaryotic DNA as a zipper with single slider (single origin of replication) and Eukaryotic DNA as a zipper with two sliders (multiple origin of replication).

Zipper teeth: Purines and pyrimidine bases

Top stops: Origin of replications.

Slider handle (when opening zipper): Helicase.

Opening of zipper: Unwinding of DNA and formation of 2 replication forks.

Side tapes supporting Zipper teeth: Single-stranded DNA-binding protein (SSB) that supports and prevents reassociation and degradation of single stranded DNA by nucleases.

Retainer box and insertion pin: RNA primer synthesized by Primase

Slider handle (when closing zipper): DNA polymerase III in eukaryotes and DNA polymerase α + δ

Other Eukaryotic DNA polymerases:

DNA polymerase γ: replicates mitochondrial DNA

DNA polymerase β and ε: participate in DNA repair

Closing of zipper: Synthesis of new strand in 5’→3′ direction beginning at 3′ end of RNA primer.

Zipper handle (DNA polymerase) as exonuclease:

DNA repair:

Mismatch repair (during replication): by MSH2 and MLH1 repair genes.

Thymidine dimers (UV radiation): Excision endonuclease/Excinuclease (deficient in Xeroderma pigmentosum) removes defective oligonucleotide, DNA polymerase fills the gap and DNA ligase seals the nick in repaired strand. This is nucleotide excision repair.

Cytosine deamination (Cytosine converted to Uracil spontaneously or by heat):

  1. Uracil glycolase removes uracil (base excision).
  2. AP endonuclease removes empty strand segment.
  3. DNA polymerase fills the gap
  4. DNA ligase seals the nick in repaired strand.

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