Abstract
The mechanism of DNA replication is one of the driving forces of genome evolution. Bacterial DNA polymerase III, the primary complex of DNA replication, consists of PolC and DnaE. PolC is conserved in Gram-positive bacteria, especially in the Firmicutes with low GC content, whereas DnaE is widely conserved in most Gram-negative and Gram-positive bacteria. PolC contains two domains, the 3′-5′exonuclease domain and the polymerase domain, while DnaE only possesses the polymerase domain. Accordingly, DnaE does not have the proofreading function; in Escherichia coli, another enzyme DnaQ performs this function. In most bacteria, the fidelity of DNA replication is maintained by 3′-5′ exonuclease and a mismatch repair (MMR) system. However, we found that most Actinobacteria (a group of Gram-positive bacteria with high GC content) appear to have lost the MMR system and chromosomes may be replicated by DnaE-type DNA polymerase III with DnaQ-like 3′-5′ exonuclease. We tested the mutation bias of Bacillus subtilis, which belongs to the Firmicutes and found that the wild type strain is AT-biased while the mutS-deletant strain is remarkably GC-biased. If we presume that DnaE tends to make mistakes that increase GC content, these results can be explained by the mutS deletion (i.e., deletion of the MMR system). Thus, we propose that GC content is regulated by DNA polymerase and MMR system, and the absence of polC genes, which participate in the MMR system, may be the reason for the increase of GC content in Gram-positive bacteria such as Actinobacteria.
Highlights
There are various external causes of genetic mutation in organisms, such as UV radiations, oxidative environment, or exposure to radiation
Enzyme MutL/S/T and that of the bacterial DNA replication enzyme DNA polymerase III, we verified the conservation of bacterial DNA polymerase III and MutL/S/T by using a BLAST
Because MutS/L is not conserved in Actinobacteria, we speculated that the increase in GC content is due to amino acid sequence differences in the DNA replication enzyme domain of these bacteria
Summary
There are various external causes of genetic mutation in organisms, such as UV radiations, oxidative environment, or exposure to radiation. The main source of DNA mutation arises from replication errors caused by DNA polymerase in the organism itself. Several DNA polymerases are conserved in the bacterial cell, the major DNA replication enzyme, DNA polymerase III, belongs to the Family C-type (McHenry, 2011). There are two types of the Family C-type replication enzymes: PolC, which conserves the proofreading apparatus of the 3 -5 exonuclease domain in addition to the polymerase domain; and DnaE, which possesses the replication enzyme, α subunit. Exonuclease domain (Huang et al, 1997). C-type polymerase is currently considered PolC, whereas DnaE and DnaQ are derived from the separation of its two domains (Huang et al., 1997)
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