Okasaki fragments

Figure 11-2. The prokaryotic DNA replication fork. A schematic representation of semi-conservative replication of DNA by different mechanisms on the leading and lagging strands by DNA polymerase III (DNA pol III) is shown. Other enzymes and accessory proteins that participate in initiation, elongation, and ligation phases of the process are indicated, with DNA pol I depicted as having just dissociated from a completed Okasaki fragment. SSBs, single-stranded DNA binding proteins.

In eubacteria and eukaryotes, several types of DNA polymerases have been characterized three in eubacteria (DNA polymerases I, II and III), and five in eukaryotes (DNA polymerases a, 3, 6, e and )). Some of these enzymes, named DNA replicases , are specifically involved in DNA-chain elongation at the replication fork. They have a multi-subunit structure and can prime and perform DNA replication in a processive way when they are associated with the other replicative proteins. In eubacteria, only one DNA replicase has been isolated (DNA polymerase III), whereas several DNA replicases co-exist in eukaryotes DNA polymerases a, 6 and e, which are essential for the replication of nuclear DNA, and DNA polymerase y, which is responsible for the replication of the mitochondrial genome. The other eubacterial and eukaryotic DNA polymerases are monomeric and are preferentially involved in mechanisms which require replication of short DNA fragments, in the course of either DNA repair (DNA polymerases I and II from E. coli, eukaryotic DNA polymerase 3), or DNA replication (maturation of Okasaki fragments by E. coli DNA polymerase I). 

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