Functionally structured genomes in lactobacillus kunkeei colonizing the honey crop and food products of honeybees and stingless bees

Daniel Tamarit, Kirsten M. Ellegaard, Johan Wikander, Tobias Olofsson, Alejandra Vásquez, Siv G.E. Andersson*

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

25 Citations (Scopus)

Abstract

Lactobacillus kunkeei is the most abundant bacterial species in the honey crop and food products of honeybees. The 16 S rRNA genes of strains isolated from different bee species are nearly identical in sequence and therefore inadequate as markers for studies of coevolutionary patterns. Here, we have compared the 1.5Mb genomes of ten L. kunkeei strains isolated from all recognized Apis species and another two strains from Meliponini species. Agene flux analysis, including previously sequenced Lactobacillus species as outgroups, indicated the influence of reductive evolution. The genome architecture is unique in that vertically inherited coregenes are located near the terminus of replication, whereas genes for secreted proteins and putative host-adaptive traits are located near the origin of replication. We suggest that these features have resulted from agenome-wide loss of genes, with integrations of novel genes mostly occurring in regions flanking the origin of replication. The phylogenetic analyses showed that the bacterial topology was incongruent with the host topology, and that strains of the same microcluster have recombined frequently across the host species barriers, arguing against codiversification. Multiple genotypes were recovered in the individual hosts and transfers ofmobile elements could be demonstrated for strains isolated from the same host species. Unlike other bacteria with small genomes, short generation times and multiple rRNA operons suggest that L. kunkeei evolves under selection for rapid growth in its natural growth habitat. The results provide an extended framework for reductive genome evolution and functional genome organization in bacteria.

Original languageEnglish
Pages (from-to)1455-1473
JournalGenome Biology and Evolution
Volume7
Issue number6
DOIs
Publication statusPublished - Jun 2015
Externally publishedYes

Keywords

  • Genome organization
  • Genome reduction
  • Honeybee
  • Lactobacillus kunkeei
  • Recombination

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