Nucleotide sequence, organization and characterization of the (halo)aromatic acid catabolic plasmid pA81 from Achromobacter xylosoxidans A8

Abstract

The complete 98,192bp nucleotide sequence was determined for plasmid pA81, which is harbored by the haloaromatic acid-degrading bacterium Achromobacter xylosoxidans A8. The majority of the 103 open reading frames identified on pA81 could be categorized as either “backbone” genes, genes encoding (halo)aromatic compound degradation, or heavy metal resistance determinants. The backbone genes controlled conjugative transfer, replication and plasmid stability, and were well conserved with other IncP1-β plasmids. Genes encoding (halo)aromatic degradation were clustered within a type I transposon, TnAxI, and included two ring-hydroxylating oxygenases (ortho-halobenzoate oxygenase, salicylate 5-hydroxylase) and a modified ortho-cleavage pathway for chlorocatechol degradation. The cluster of heavy metal resistance determinants was contained within a Type II transposon TnAxII, and included a predicted P-type ATPase and cation diffusion facilitator system. Genes identical to those carried by TnAxI and TnAxII were identified on other biodegradative/resistance plasmids and genomic islands, indicating an evolutionary relationship between these elements. Collectively, these insights further our understanding of how mobile elements, and interactions between mobile elements affect the fate of organic and inorganic toxicants in the environment.