Soil bacteria can rapidly adapt to environmental perturbations through horizontal gene transfer. Acidobacteria is one of the most persistent dominant phyla in the soil. However, the role of these organisms in terrestrial ecosystems remains elusive. Here we identified and describe the integrative and conjugative elements (ICEs) in the published complete genomes of Acidobacteria. In total, ten novel ICEs were identified, in which nine were found integrated as three separated monopartite ICEs in the single chromosome sequences of three Acidobacteria. These ICEs carry a repertoire of genes with potential environmental roles, including heavy metal resistance, iron uptake, secondary metabolism, and antibiotic resistance. To our knowledge, these are the first evidence of three monopartite ICEs identified in the single chromosome, and this might be due to the absence of recognizable entry exclusion systems. We hypothesis that the coexistence of multiples ICEs in the chromosome of Acidobacteria might reflect a major advantage for the survival, resistance, and persistence of phylum in the environment.
Keywords: Horizontal gene transfer; Mobile DNA; Soil bacteria.
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