Commentary: Complete Genome Sequence of 3-Chlorobenzoate-Degrading Bacterium Cupriavidus necator NH9 and Reclassification of the Strains of the Genera Cupriavidus and Ralstonia Based on Phylogenetic and Whole-Genome Sequence Analyses

Citation: Gan HM (2019) Commentary: Complete Genome Sequence of 3-ChlorobenzoateDegrading Bacterium Cupriavidus necator NH9 and Reclassification of the Strains of the Genera Cupriavidus and Ralstonia Based on Phylogenetic and Whole-Genome Sequence Analyses. Front. Microbiol. 10:2011. doi: 10.3389/fmicb.2019.02011 Commentary: Complete Genome Sequence of 3-ChlorobenzoateDegrading Bacterium Cupriavidus necator NH9 and Reclassification of the Strains of the Genera Cupriavidus and Ralstonia Based on Phylogenetic and Whole-Genome Sequence Analyses


A Commentary on
Complete Genome Sequence of 3-Chlorobenzoate-Degrading Bacterium Cupriavidus necator NH9 and Reclassification of the Strains of the Genera Cupriavidus and Ralstonia Based on Phylogenetic and Whole-Genome Sequence Analyses by Moriuchi, R., Dohra, H., Kanesaki, Y., and Ogawa, N. (2019). Front. Microbiol. 10:133. doi: 10.3389/fmicb.2019.00133 Moriuchi et al. reported a comprehensive reclassification of bacterial strains from the genera Cupriavidus and Ralstonia based on percentage of conserved proteins (POCP), average nucleotide identity (ANI), multilocus sequence analysis and 16S rRNA gene sequence. In the study, conflicting results were repeatedly observed for the taxonomic classification of strain PBA that was initially identified as Ralstonia sp. PBA based on 16S rRNA gene sequence (Gan et al., 2011b;Moriuchi et al., 2019).
Strain PBA was isolated as a co-culture with Hydrogenophaga intermedia PBC from textile wastewater a decade ago. The co-culture could grow on 4-aminobenzenesulfonate (4-ABS), a recalcitrant dye intermediate (Wagner and Reid, 1931), as the sole nitrogen, carbon, and sulfur source to a relatively high cell density (Gan et al., 2011b). In this syntrophic relationship, strain PBA is the sole provider of p-aminobenzoate, an essential vitamin required for the growth of H. intermedia PBC, the main 4-ABS degrader (Gan et al., 2011a. In light of new genomic resources, the initial taxonomic assignment of strain PBA has also been previously questioned by Kim and Gan (2017) given its closer phylogenetic affiliation to the genus Cupriavidus than to the genus Ralstonia. Unfortunately, both recent genome-based taxonomic classifications of strain PBA (Kim and Gan, 2017;Moriuchi et al., 2019) suffered from incomplete and biased taxon sampling (restricted mostly to members from the genus Ralstonia and Cupriavidus) that can result in the misinterpretation of evolutionary relationships (Heath et al., 2008). The taxonomic affiliation of strain PBA should be inferred from a comprehensive phylogenomic analysis that includes all genera with genome availability from the family Burkholderiaceae.
A total of 428 Burkholderiaceae (including strain PBA) and 15 non-Burkholderiaceae genome assemblies were obtained from the NCBI RefSeq database (accessed on 30th May 2019). The genomes were processed using two microbial phylogenomic analysis pipelines e.g., GToTree v1.2.1 (Lee, 2019) and PhylophlAN v0.99 (Segata et al., 2013) that identify single copy bacterial genes (GToTree: n = 203, Betaproteobacteria HMM set; PhylophIAN: n = 400) and produce concatenated protein alignment. Maximum likelihood tree construction from the protein alignments used IQTree v.1.6.8 with 1,000 ultrafast bootstrap replicates (Nguyen et al., 2014). In both phylogenomic trees, the Ralstonia and Cupriavidus clusters received maximal support and are sister taxa to the exclusion of strain PBA (Figures 1A,B). The updated phylogenomic placement of strain PBA in light of extensive taxon sampling precludes its genus assignment to the genus Ralstonia or Cupriavidus and suggests that it is a member of a hitherto undescribed genus within the family Burkholderiaceae. Within the Genome Taxonomy Database (Parks et al., 2018) that inferred standardized bacteria taxonomy from conserved proteins present in 143,512 bacterial genomes (GTDB release R04-RS89), strain PBA was still assigned to its own genus (g__AKCV01) despite an even more extensive taxon sampling of 4,378 genomes from the family Burkholderiaceae (https://gtdb.ecogenomic.org/tree? r=g__AKCV01 accessed on 1st August 2019).
Given the concordance observed from these independent analyses, the taxonomic assignment of strain PBA has been updated from Ralstonia sp. PBA to Burkholderiaceae sp. PBA in the NCBI database (Bioproject: PRJNA78957; BioSample: SAMN02471424) (Gan et al., 2012) pending future genus description. To facilitate future strain description and comparison, strain PBA has been deposited in the German Collection of Microorganisms and Cell Cultures GmbH (DSMZ) under the accession number DSM 106616. Furthermore, the concatenated alignments, uncollapsed phylogenomic trees and genome information are also made available in the Zenodo database (http://doi.org/10.5281/zenodo.3258920).

AUTHOR CONTRIBUTIONS
HG performed data analysis and wrote the manuscript.

FUNDING
This research was supported by the Deakin Centre of Integrative Ecology.