mSphere (Dec 2023)
Orientia tsutsugamushi: comprehensive analysis of the mobilome of a highly fragmented and repetitive genome reveals the capacity for ongoing lateral gene transfer in an obligate intracellular bacterium
Abstract
ABSTRACTThe rickettsial human pathogen Orientia tsutsugamushi (Ot) is an obligate intracellular Gram-negative bacterium with one of the most highly fragmented and repetitive genomes of any organism. Around 50% of its ~2.3-Mb genome is composed of repetitive DNA that is derived from the highly proliferated Rickettsiales amplified genetic element (RAGE). RAGE is an integrative and conjugative element (ICE) that is present in a single Ot genome in up to 93 copies, most of which are partially or heavily degraded. In this report, we analyzed RAGEs in eight fully sequenced Ot genomes and manually curated and re-annotated all RAGE-associated genes, including those encoding DNA mobilization proteins, P-type (vir), and F-type (tra) type IV secretion system (T4SS) components, ankyrin repeat- and tetratricopeptide repeat-containing effectors, and other piggybacking cargo. Originally, the heavily degraded Ot RAGEs have led to speculation that they are remnants of historical ICEs that are no longer active. Our analysis, however, identified two Ot genomes harboring one or more intact RAGEs with complete F-T4SS genes essential for mediating ICE DNA transfer. As similar ICEs have been identified in unrelated rickettsial species, we assert that RAGEs may play an ongoing role in lateral gene transfer within the Rickettsiales. We also identified a conserved set of gene transfer agent genes in all Ot genomes. Together these findings indicate that, despite their obligate intracellular lifestyle and host range restricted to mites, rodents, and humans, Ot genomes are highly dynamic and shaped through ongoing invasions by mobile genetic elements and virus-like elements.IMPORTANCEObligate intracellular bacteria, or those only capable of growth inside other living cells, have limited opportunities for horizontal gene transfer with other microbes due to their isolated replicative niche. The human pathogen Ot, an obligate intracellular bacterium causing scrub typhus, encodes an unusually high copy number of a ~40 gene mobile genetic element that typically facilitates genetic transfer across microbes. This proliferated element is heavily degraded in Ot and previously assumed to be inactive. Here, we conducted a detailed analysis of this element in eight Ot strains and discovered two strains with at least one intact copy. This implies that the element is still capable of moving across Ot populations and suggests that the genome of this bacterium may be even more dynamic than previously appreciated. Our work raises questions about intracellular microbial evolution and sounds an alarm for gene-based efforts focused on diagnosing and combatting scrub typhus.
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