Genomic diversification in strains of rickettsia felis isolated from different arthropods

Authors

Joseph J. Gillespie, University of Maryland School of Medicine
Timothy P. Drisco, Western Carolina University
Victoria I. Verhoeve, School of Veterinary Medicine
Tadanobu Utsuki, School of Veterinary Medicine
Claudia Husseneder, Louisiana State University
Vladimir N. Chouljenko, School of Veterinary Medicine
Abdu F. Azad, University of Maryland School of Medicine
Kevin R. MacAluso, School of Veterinary Medicine

Document Type

Article

Publication Date

12-27-2014

Abstract

Rickettsia felis (Alphaproteobacteria: Rickettsiales) is the causative agent of an emerging flea-borne rickettsiosis with worldwide occurrence. Originally described from the cat flea, Ctenocephalides felis, recent reports have identified R. felis from other flea species, as well as other insects and ticks. This diverse host range for R. felis may indicate an underlying genetic variability associated with host-specific strains. Accordingly, to determine a potential genetic basis for host specialization, we sequenced the genome of R. felis str. LSU-Lb, which is an obligate mutualist of the parthenogenic booklouse Liposcelis bostrychophila (Insecta: Psocoptera). We also sequenced the genome of R. felis str. LSU, the second genome sequence for cat flea-associated strains (cf. R. felis str. URRWXCal2), which are presumably facultative parasites of fleas. Phylogenomics analysis revealed R. felis str. LSU-Lb diverged from the flea-associated strains. Unexpectedly, R. felis str. LSU was found to be divergent from R. felis str. URRWXCal2, despite sharing similar hosts. Although all three R. felis genomes contain the pRF plasmid, R. felis str. LSU-Lb carries an additional unique plasmid, pLbaR (plasmid of L. bostrychophila associated Rickettsia), nearly half of which encodes a unique 23-gene integrative conjugative element. Remarkably, pLbaR also encodes a repeats-in-toxin-like type I secretion system and associated toxin, heretofore unknown from other Rickettsiales genomes, which likely originated from lateral gene transfer with another obligate intracellular parasite of arthropods, Cardinium (Bacteroidetes). Collectively, our study reveals unexpected genomic diversity across three R. felis strains and identifies several diversifying factors that differentiate facultative parasites of fleas from obligate mutualists of booklice.

Publication Source (Journal or Book title)

Genome Biology and Evolution

First Page

35

Last Page

56

Recommended Citation

Gillespie, J., Drisco, T., Verhoeve, V., Utsuki, T., Husseneder, C., Chouljenko, V., Azad, A., & MacAluso, K. (2014). Genomic diversification in strains of rickettsia felis isolated from different arthropods. Genome Biology and Evolution, 7 (1), 35-56. https://doi.org/10.1093/gbe/evu262