The transcribed intergenic regions exhibit lower frequency of nucleotide polymorphism than the untranscribed intergenic regions in the genomes of Escherichia coli and Salmonella enterica

Abstract

AbstractThe temporary exposure of single-stranded regions in the genome during the process of replication and transcription makes the region vulnerable to cytosine deamination resulting higher rate of C→T transitions. Intra-operon intergenic regions undergo transcription along with adjacent co-transcribed genes in an operon, whereas inter-operon intergenic regions only undergo replication. Hence these two types of intergenic regions (IGRs) can be compared to find out the contribution of replication-associated mutations (RAM) and transcription-associated mutations (TrAM) towards bringing variation in genomes. In our work, we performed a polymorphism spectra comparison between intra-operon IGRs and inter-operon IGRs in genomes of two well-known closely related bacteria such as Escherichia coli and Salmonella enterica. In general, the size of intra-operon IGRs was smaller than that of inter-operon IGRs in these bacteria. Interestingly, the polymorphism frequency at intra-operon IGRs was 2.5-fold lesser than that in the inter-operon IGRs in E. coli genome. Similarly, the polymorphism frequency at intra-operon IGRs was 2.8-fold lesser than that in the inter-operon IGRs in S. enterica genome. Therefore, the intra-operon IGRs were often observed to be more conserved. In the case of inter-operon IGRs, the T→C transition frequency was a minimum of two times more than T→A transversion frequency whereas in the case of intra-operon IGRs, T→C transition frequency was similar to that of T→A transversion frequency. The polymorphism was purine biased and keto biased more in intra-operon IGRs than the inter-operon IGRs. In E. coli, the Ti/Tv ratio was observed as 1.639 and 1.338 in inter-operon and in intra-operon IGRs, respectively. In S. enterica, the Ti/Tv ratio was observed as 2.134 and 2.780 in inter-operon and in intra-operon IGRs, respectively. The observation in this study indicates that transcribed IGRs might not always have higher polymorphism frequency than the untranscribed IGRs. The lower polymorphism frequency at intra-operon IGRs might be attributed to different events such as the transcription-coupled DNA repair, sequences facilitating translation initiation and avoidance of rho-dependent transcription termination.