Prokaryotic DNA Replication - Regulation

Regulation

Regulation of DNA replication is achieved through several mechanisms. Mechanisms involve the ratio of ATP to ADP, of DnaA to the number of DnaA boxes and the hemimethylation and sequestering of OriC.

The ratio of ATP to ADP indicates that the cell has reached a specific size and is ready to divide. This "signal" occurs because in a rich medium, the cell will grow quickly and will have a lot of excess DNA.

Furthermore, DnaA binds equally well to ATP or ADP, and only the DnaA-ATP complex is able to initiate replication. Thus, in a fast growing cell, there will be more DnaA-ATP than DnaA-ADP. Because the levels of DnaA are strictly regulated, and 5 DnaA-DnaA dimers are needed to initiate replication, the ratio of DnaA to the number of DnaA boxes in the cell is important. After DNA replication is complete, this number is halved, thus DNA replication cannot occur until the levels of DnaA protein increases.

Finally, DNA is sequestered to a membrane-binding protein called SeqA. This protein binds to hemi-methylated GATC DNA sequences. This four bp sequences occurs 11 times in OriC, and newly synthesized DNA only has its parent strand methylated. DAM methyltransferase methylates the newly synthesized strand of DNA only if it is not bound to SeqA. The importance of hemi-methylation is twofold. Firstly, OriC becomes inaccessible to DnaA, and secondly, DnaA binds better to fully methylated DNA than hemi-methylated DNA.

These mechanisms serve to downregulate DNA replication so that it only occurs once per cell cycle, preventing over-replication of DNA.

DNA replication ( comparing Prokaryotic to Eukaryotic)
Initiation
Prokaryotic
(initiation)
  • Pre-replication complex
  • Cdc6
  • Helicase
    • dnaA
    • dnaB
    • T7
  • Primase
    • dnaG
Eukaryotic
(preparation in
G1 phase)
  • Pre-replication complex
  • Origin recognition complex
    • ORC1
    • ORC2
    • ORC3
    • ORC4
    • ORC5
    • ORC6
  • Cdc6
  • Cdt1
  • Minichromosome maintenance
    • MCM2
    • MCM3
    • MCM4
    • MCM5
    • MCM6
    • MCM7


  • Licensing factor
  • Autonomously replicating sequence
  • Single-strand binding protein
    • SSBP2
    • SSBP3
    • SSBP4
  • RNase H
    • RNASEH1
    • RNASEH2A
  • Helicase: HFM1
  • Primase: PRIM1
  • PRIM2
Both
  • Origin of replication/Ori/Replicon
  • Replication fork
    • Lagging and leading strands
  • Okazaki fragment
  • Primer
Replication
Prokaryotic
(elongation)
  • DNA polymerase III holoenzyme
    • dnaC
    • dnaE
    • dnaH
    • dnaN
    • dnaQ
    • dnaT
    • dnaX
    • holA
    • holB
    • holC
    • holD
    • holE
  • Replisome
  • DNA ligase
  • DNA clamp
  • Topoisomerase
    • DNA gyrase
  • Prokaryotic DNA polymerase: DNA polymerase I
    • Klenow fragment
Eukaryotic
(synthesis in
S phase)
  • Replication factor C
    • RFC1
  • Flap endonuclease
    • FEN1
  • Topoisomerase
  • Replication protein A
    • RPA1
  • Eukaryotic DNA polymerase: delta
    • POLD1
    • POLD2
    • POLD3
    • POLD4
  • DNA clamp
    • PCNA
Both
  • Movement: Processivity
  • DNA ligase
Termination
  • Telomere: Telomerase
    • TERT
    • TERC
    • DKC1
See also: DNA replication and repair-deficiency disorder B bsyn: dna (repl, cycl, reco, repr) · tscr (fact, tcrg, nucl, rnat, rept, ptts) · tltn (risu, pttl, nexn) · dnab, rnab/runp · stru (domn, 1°, 2°, 3°, 4°)

Read more about this topic:  Prokaryotic DNA Replication

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