Expanding the biodiversity of Oenococcus oeni through comparative genomics of apple cider and kombucha strains

Authors:
Marc P. Lorentzen, Hugo Campbell-Sills, Tue S. Jorgensen, Tue K. Nielsen, Monika Coton, Emmanuel Coton, Lars Hansen, Patrick M. Lucas

Abstract:
Background: Oenococcus oeni is a lactic acid bacteria species adapted to the low pH, ethanol-rich environments of wine and cider fermentation, where it performs the crucial role of malolactic fermentation. It has a small genome and has lost the mutS-mutL DNA mismatch repair genes, making it a hypermutable and highly specialized species. Two main lineages of strains, named groups A and B, have been described to date, as well as other subgroups correlated to different types of wines or regions. A third group "C" has also been hypothesized based on sequence analysis, but it remains controversial. In this study, we have elucidated the species population structure by sequencing 14 genomes of new strains isolated from cider and kombucha and performing comparative genomics analyses. Results: Sequence-based phylogenetic trees confirmed a population structure of 4 clades: The previously identified A and B, a third group "C" consisting of the new cider strains and a small subgroup of wine strains previously attributed to group B, and a fourth group "D" exclusively represented by kombucha strains. A pair of complete genomes from groups C and D were compared to the circularized O. oeni PSU-1 strain reference genome, and no genomic rearrangements were found. Phylogenetic trees, K-means clustering, and pangenome gene clusters evidenced the existence of smaller, specialized subgroups of strains. Using the pangenome, genomic differences in stress resistance and biosynthetic pathways were found to uniquely distinguish the C and D clades. Conclusions: The obtained results, including the additional cider and kombucha strains, firmly established the O. oeni population structure. Group C does not appear as fully domesticated as group A to wine but showed several unique patterns, which may be due to ongoing specialization to the cider environment. Group D was shown to be the most divergent member of O. oeni to date, appearing as the closest to a pre-domestication state of the species. Keywords: Oenococcus oeni, Lactic acid bacteria, Comparative genomics, Phylogenomics, Pan-genome, Industrial microbiology.


Keywords: oenococcus oeni, lactic acid bacteria, comparative genomics, phylogenomics, pan-genome, industrial microbiology



Country: France

Citation: Lorentzen et al. BMC Genomics 20:330 https://doi.org/10.1186/s12864-019-5692-3

Study Mailing Address:
University of Bordeaux, ISVV, Unit Oenology, F-33882 Villenave d'Ornon, France

Date Updated: January 14, 2021