Abstract

The taxonomic classification of metabolically versatile Paracoccus spp. has been so far performed using polyphasic approach. The topology of single gene phylogenies, however, has highlighted ambiguous species assignments. In the present study, genome based multi-gene phylogenies and overall genome related index were used for species threshold assessment. Comprehensive phylogenomic analysis of Paracoccus genomes (n = 103) showedconcordant clustering of strains across multi-gene marker set phylogenies (nMC = 0.08-0.14); as compared to 16S rDNA phylogeny (nMC = 0.37-0.42) suggesting robustness of multi gene phylogenies in drawing phylogenetic inferences. Functional gene content distribution across the genus showed that only 1.7% gene content constitutes the core genome highlighting the significance of extensive genomic variability in the evolution of Paracoccus spp. Further, genome metrics were used to validate characterized strains, identifying classification anomalies (n = 13), and based on this, genome derived taxonomic amendments were notified in present study. Conclusively, validated metric tools can be employed on whole genome sequences, including draft assemblies, for the assessment and assignment of uncharacterized strains and species level ascription of newly isolated Paracoccus strains in future.

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