Genome Sequence of the Tick-Borne Pathogen Rickettsia raoultii.

ITALIC! Rickettsia raoultiiis a tick-associated spotted fever group (SFG) organism, causing scalp eschar and neck lymphadenopathy after tick bite (SENLAT) in humans. We report here the genome sequence of ITALIC! R. raoultiistrain Khabarovsk(T)(CSUR R3(T), ATCC VR-1596(T)), which was isolated from a ITALIC! Dermacentor silvarumtick collected in Russia.

GENOME ANNOUNCEMENT

Rickettsia species are obligate intracellular alphaproteobacteria that can infect humans or animals, mostly through arthropod bites, and they can cause a range of mild to fatal diseases, such as spotted fevers and murine or epidemic typhus. The spotted fever group (SFG) species Rickettsia raoultii can cause scalp eschar and neck lymphadenopathy after tick bite (SENLAT) in humans (1). Originally detected in Dermacentor nuttalli and Rhipicephalus pumilio ticks, R. raoultii was then detected in a Dermacentor silvarum tick (2, 3) prior to being identified mainly in Dermacentor species ticks worldwide (1). Here, we briefly describe the genome sequence of R. raoultii strain KhabarovskT isolated from D. silvarum ticks collected in Russia in 2005 (3) and inferred the phylogenomic position of the species.

The genome was sequenced using the GS20 and GS FLX Titanium platforms (100-bp single ends, 3-kb paired-end reads; Roche, CT), and the Genome Analyzer II technology (200-bp paired-end reads; Illumina, USA). The de novo read assemblies and mapping were performed using the Newbler and CLC Genomics softwares. Most gaps between contigs were closed using specific PCRs. The protein-coding genes were predicted using AMIGene (4). Assignment of protein functions was performed by searching against RickBase and GenBank using BLASTp (5). Gene classification into functional categories was processed using COGsoft (6). Ribosomal RNAs, tRNAs, and other RNAs were identified using RNAmmer, tRNAscan-SE, and BLASTn (7–9). Membrane and secreted proteins were predicted using TMHMM (http://www.cbs.dtu.dk/services/TMHMM/), SignalP, and SecretomeP (10, 11). Orthologous genes between 29 Rickettsia species were identified using COGsoft, with a coverage of ≥80% and an E value ≤10-10 (6). Multiple sequence alignment of 330 concatenated core genes was carried out using MAFFT (12). Phylogenomic inference was performed using maximum likelihood with GAMMA and JTT models with 100 bootstrap (BP) replicates.

R. raoultii exhibited one chromosome of 1,344,605 bp (containing one gap), 1,334 genes, and a G+C content of 32.5%. It encoded 11.7, 2.8, and 1.1% of membrane, exported, and alternative secreted proteins, respectively. Three rRNAs (16S, 23S, and 5S rRNA), one transfer-messenger RNA (tmRNA), two misc_RNAs, and 33 tRNAs were identified. Compared to the more virulent Rickettsia slovaca, R. raoultii had more genes involved in replication, recombination, and repair (30 versus 7), translation (10 versus 6), transduction (16 versus 4), and transport and metabolism (39 versus 21). The phylogenomic analysis of 29 Rickettsia species identified a reliable cluster (bootstrap, 100%) grouping R. raoultii, Rickettsia aeschlimannii, Rickettsia massiliae, and Rickettsia rhipicephali together.

Moreover, the R. raoultii genome contained the three plasmids pRra1, pRra2, and pRra3, having sizes ranging from 20,840 to 83,219 bp. These plasmids were closely related to R. massiliae pRma, Rickettsia helvetica pRhe, and Rickettsia buchneri pReis3, respectively (13). The pRra2 plasmid harbored a conjugative TRA cluster. However, the presence of a cluster of 6 genes in the R. raoultii chromosome that matched Rickettsia peacockii pRpe plasmid (amino acid identity, 95 to 98%) and Pseudomonas aeruginosa chromosomes (amino acid identity, 62 to 82%) suggests that it may be horizontally transmitted and/or R. raoultii might have harbored a fourth plasmid that was disrupted during the reductive evolution.

Nucleotide sequence accession numbers.

The whole-genome shotgun sequences were deposited in GenBank under accession numbers CP010969, CP010970, CP010971, and CP010972.