Phylogenomic and comparative analyses support the reclassification of several Komagataeibacter species as novel members of the Novacetimonas gen. nov. and bring new insights into the evolution of cellulose synthase genes

Int J Syst Evol Microbiol. 2022 Feb;72(2). doi: 10.1099/ijsem.0.005252.

Abstract

The genus Komagataeibacter harbours bacteria presenting the ability to produce increased levels of crystalline nanocellulose, as well as strains used in the industrial production of fermented products and beverages. Still, most of the studies of this biotechnologically relevant genus were conducted based on limited phenotypic methodologies and taxonomical classifications. In this work, a detailed analysis of the currently described genus Komagataeibacter was conducted based on phylogenomic analysis, unveiling the phylogenomic relationships within the genus and allowing a detailed phylogenetic analysis of biotechnologically important genes such as those involved in cellulose biosynthesis (bcs genes). Phylogenomic and comparative genomic analysis revealed that several type strains formed an independent genomic group from those of other Komagataeibacter, prompting their reclassification as members of a novel genus, hereby termed Novacetimonas gen. nov. The results support the reclassification of Komagataeibacter hansenii, Komagataeibacter cocois, Komagataeibacter maltaceti and Komagataeibacter pomaceti as novel members of the genus Novacetimonas. The Novacetimonas hansenii species is the proposed representative of the novel genus. Importantly, phylogenetic analysis based on cellulose biosynthesis genes (bcsABCD, bcsAB2XYC2, bcsAB3C3, bcsAB4), showed that the evolutionary history of these genes is closely related to the strain's phylogenomic/taxonomic classification. Hence, the robust taxonomic classification of these bacteria will allow the better characterization and selection of strains for biotechnological applications.

Keywords: Komagataeibacter; Novacetimonas; acetic-acid bacteria; bacterial cellulose; genomics; phylogeny.

MeSH terms

  • Acetobacteraceae / classification*
  • Bacterial Typing Techniques
  • Base Composition
  • DNA, Bacterial / genetics
  • Glucosyltransferases / genetics*
  • Phylogeny*
  • RNA, Ribosomal, 16S / genetics
  • Sequence Analysis, DNA

Substances

  • DNA, Bacterial
  • RNA, Ribosomal, 16S
  • Glucosyltransferases
  • cellulose synthase