Abstract
Paenarthrobacter sp. GOM3, which is a strain that represents a new species-specific context within the genus Paenarthrobacter, is clearly a branched member independent of any group described thus far. This strain was recovered from marine sediments in the Gulf of Mexico, and despite being isolated from a consortium capable of growing with phenanthrene as a sole carbon source, this strain could not grow successfully in the presence of this substrate alone. We hypothesized that the GOM3 strain could participate in the assimilation of intermediate metabolites for the degradation of aromatic compounds. To date, there are no experimental reports of Paenarthrobacter species that degrade polycyclic aromatic hydrocarbons (PAHs) or their intermediate metabolites. In this work, we report genomic and experimental evidence of metabolic benzoate, gentisate, and protocatechuate degradation by Paenarthrobacter sp. GOM3. Gentisate was the preferred substrate with the highest volumetric consumption rate, and genomic analysis revealed that this strain possesses multiple gene copies for the specific transport of gentisate. Furthermore, upon analyzing the GOM3 genome, we found five different dioxygenases involved in the activation of aromatic compounds, suggesting its potential for complete remediation of PAH-contaminated sites in combination with strains capable of assimilating the upper PAH degradation pathway. Additionally, this strain was characterized experimentally for its pathogenic potential and in silico for its antimicrobial resistance. An overview of the potential ecological role of this strain in the context of other members of this taxonomic clade is also reported.
Highlights
IntroductionPaenarthrobacter nitroguajacolicus, and Paenarthrobacter ureafaciens, which belong to the Arthrobacter genus and, until now, have remained the only species with validated names (Busse, 2016)
Examples include the degradation of the aromatic amine atrazine and similar compounds used as herbicides by P. aurescens TC1 (Strong et al, 2002), the utilization of nitroaromatic compounds by P. nitroguajacolicus (Kotoucková et al, 2004), nicotine metabolism by P. nicotinovorans (Baitsch et al, 2001), and nylon derivative degradation by P. ureafaciens KI72 (Takehara et al, 2017)
The taxonomic description of the GOM3 strain is beyond the scope of this paper, our phylogenomic reconstruction supports that the Paenarthrobacter clade is monophyletic and that it has undergone significant radiation with coherently defined genomic groups (P. urefaciens, P. aurecens, P. nicotinovorans subgroups, and the species P. ilicis and P. histidinolovorans were less populated at the genomic level but well-separated from the other groups)
Summary
Paenarthrobacter nitroguajacolicus, and Paenarthrobacter ureafaciens, which belong to the Arthrobacter genus and, until now, have remained the only species with validated names (Busse, 2016). Most species of this genus have been isolated from soil, and they have a common peptidoglycan type A3α (Lys–Ala–Thr–Ala A11.17); a quinone system that contains menaquinone MK-9(H2); a polar lipid profile with the presence of diphosphatidylglycerol, phosphatidylglycerol, phosphatidylinositol, dimannosylglyceride, and monogalactosyldiacylglycerol; and a G+C content in genomic DNA from 61.3 to 63.6 (mol%). (Busse, 2016; Busse and Wieser, 2018) Members of this genus have been reported to have interesting metabolic capabilities to degrade xenobiotics used in industrial applications and bioremediation. To date, there is no experimental evidence that strains of this genus are capable of degrading aromatic compounds, such as polycyclic aromatic hydrocarbons (PAHs) or their intermediate metabolites
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