DNA replication Flashcards
Initiation of replication: (E.coli)
6 Proteins involved: DnaA, DnaB, DnaC, HU, Gyrase, SSB
DnaA is an initiator protein. When bound to ATP it is activated. This DnaA-ATP compled binds to the fully methilated oriC (first high affinitiy, then low) It twitst and melts the helix with the help of HU. Two DnaB/DnaC complex then bind. DnaB is an ATP hydrolysis-dependent 5’-3’ helicase. DnaC is a chaperon. Together they from two replication forks. Gyrase help relaxes the DNA supercoils. SSB stabilized DNA and keeps the replication bubble open
Joining of adjacent Okazaki fragments in E.coli
DNA polymerase III has only 3’-5’ exonulease activity. It stops synthesizing DNA when it finds a primer. DNA polymerase I has both 3’-5’ and 5’-3’ exonulcease activities. Degrades the primer with the 5’-3’exonuclease activity and synthesizes new complementary DNA simultaneously. DNA ligase ligates the adjacent fragments
Joining of Okazaki adjecent fragments in eukaryotes
DNA polymerase o and helicase displace the primer, creating a 5’ flap. Simultaneously the DNA polymerase fills the gap. Flap endonuclease I (FEN1) cleaves the flap removing the primer. DNA ligase ligates the adjecent fragments
In E.coli the progession of the replication fork is maintained by these enzymes:
Helicase, Gyrase, SSB, Primase, DNA polymerase I and III, Ligase
Telomere functions:
- Cell disinguis telomeres from other free ends caused bu damage
- Telomeres can be extended to avoid short of chromosomes
- Telemeres form a T-toop that stabilized the end of the chromosome by invasion of G-rich 3’-end in an upstream region of the telomere.
