Sequence Variation in Toxoplasma gondii rop17 Gene among Strains from Different Hosts and Geographical Locations

Genetic diversity of T. gondii is a concern of many studies, due to the biological and epidemiological diversity of this parasite. The present study examined sequence variation in rhoptry protein 17 (ROP17) gene among T. gondii isolates from different hosts and geographical regions. The rop17 gene was amplified and sequenced from 10 T. gondii strains, and phylogenetic relationship among these T. gondii strains was reconstructed using maximum parsimony (MP), neighbor-joining (NJ), and maximum likelihood (ML) analyses. The partial rop17 gene sequences were 1375 bp in length and A+T contents varied from 49.45% to 50.11% among all examined T. gondii strains. Sequence analysis identified 33 variable nucleotide positions (2.1%), 16 of which were identified as transitions. Phylogeny reconstruction based on rop17 gene data revealed two major clusters which could readily distinguish Type I and Type II strains. Analyses of sequence variations in nucleotides and amino acids among these strains revealed high ratio of nonsynonymous to synonymous polymorphisms (>1), indicating that rop17 shows signs of positive selection. This study demonstrated the existence of slightly high sequence variability in the rop17 gene sequences among T. gondii strains from different hosts and geographical regions, suggesting that rop17 gene may represent a new genetic marker for population genetic studies of T. gondii isolates.


Introduction
Toxoplasma gondii can infect all warm-blooded vertebrates, including mammals and birds [1][2][3]. Genetic diversity of T. gondii is widespread due to the biological and epidemiological diversity of this parasite. T. gondii isolates can be clustered into six major clades [4], and genetic diversity of T. gondii is especially common in South America [4]. Utilizing 11 genetic markers, T. gondii isolates in North America and Europe are grouped into four major clonal lineage types (I, II, III, and 12) [5,6] using PCR-RFLP.
Rhoptry kinases are involved in mediating pathogenesis of T. gondii [7], and they are also master regulators that manipulate the host inflammatory responses [8,9]. T. gondii rhoptry protein 17 (ROP17), a member of the ROP2 subfamily [10], was predicted to have a cellular localization on the parasitophorous vacuole membrane (PVM), which may participate in the manipulation of the host signalling pathways [9]. Previous studies have shown the existence of sequence variation in some ROP genes, such as rop7, rop9, rop13, and rop38 [11][12][13][14]. However, it is yet to be known whether sequence diversity exists in rop17 gene of T. gondii. The objective of the present study was to examine sequence variation in rop17 gene among T. gondii strains representing different genotypes and host and origins.

T. gondii
Isolates. Ten T. gondii strains collected from different hosts and locations were used for analysis in this 2 The Scientific World Journal study (Table 1). These strains have been genotyped and their genomic DNA has been prepared as described previously [15][16][17].

Sequence Analysis and Reconstruction of Phylogenetic
Relationships. The rop17 gene sequences of different T. gondii strains were aligned using Multiple Sequence Alignment Program, Clustal X 1.83 [18], and the sequence differences were determined according to Chilton et al. [19] and Zhao et al. [20]. Phylogenetic reconstruction was based on the rop17 gene sequences determined in the present study plus the corresponding sequences of strains TgC7, PRU, and RH available in GenBank (accession numbers: KC997176, KC997177, and KC997178) using three inference methods, namely, neighbor-joining (NJ), maximum likelihood (ML), and maximum parsimony (MP), using the sequence of Neospora caninum (NCLIV 027930) as the outgroup. All the analyses were conducted following previous studies [20,21]. Phylograms were drawn using the Tree View program version 1.65 [22].

Results and Discussion
The length of the rop17 genes from all examined T. gondii isolates was 1375 bp and A+T contents varied from 49.45% to 50.11%. The alignment of 10 rop17 sequences plus the corresponding sequences of the RH, PRU, and TgC7 strains available in GenBank revealed nucleotide polymorphisms at 33 positions, with an intraspecific variation of 0-2.1%. The genetic diversity in rop17 gene was higher than our previous studies for PLP1 [23], ROP7 [11], eIF4A [24], and MIC13 [25] genes and the whole genome, secretome, and kinome of T. gondii [8]. 16 variable positions were identified as transitions and the rest variable nucleotides were classified as transversions, and no deletions were detected in the 13 rop17 gene sequences. Phylogeny reconstruction using MP, NJ, and ML analyses revealed two major clusters (Figure 1(a)). Topologies of all trees based on nucleotide sequences inferred by three different methods were similar, with only the small difference of bootstrap values. The classical genotypes II and III and atypical Type 12 strain were clustered in one clade. The subtree of NJ analysis further showed that genotype III (strain CTG) was separated from other strains which were supported by bootstrap analysis, and the atypical Type 12 (TgWtSc40 strain) was closely related to classical genotype II (strain PRU) (Figure 1(b)). T. gondii genotype II is one of the parental lineage of Type 12 based on the analysis of the inheritance of multilocus genotypes [6,26]. The somewhat close relationship between Type II and Type 12 strains coincided with analyses of UPRT and SAG1 loci [6]. All the strains belonging to genotype I in this study were clustered together, including strain TgPLh and typical strains GT1 and RH. Atypical strains TgCat1, TgToucan, TgCatBr64, and TgCatBr5 were phylogenetically clustered more closely with Type I strains. Of these, TgCatBr64 and TgCatBr5 strains which originated from cats in Brazil were grouped together. Based on the limited T. gondii strains examined in the present study, the rop17 gene sequences could distinguish the major clonal lineages, but not all, showing the weak differentiation of T. gondii genotypes compared to analyses using GRA5, GRA6, and AK gene sequences as genetic markers [27][28][29]. Further validation of the rop17 gene sequences as genetic marker is warranted by sampling more T. gondii strains from wider geographical locations and more hosts.
The analyses of sequence variations in nucleotides and amino acids among different strains showed high ratio of  nonsynonymous to synonymous polymorphisms (>1), suggesting that T. gondii rop17 shows signs of positive selection, although more isolates will be required to determine whether rop17 gene is under selection at the population level. Under the immunized stresses of host cells, the positive selection occurring in rop17 gene may increase stress resistance. Ongoing positive selection is also found in several polymorphic dense granule (GRA) antigens [30,31] and some other ROPs [8].

Conclusion
In summary, the present study demonstrated the existence of slightly high sequence variability in the rop17 gene sequences among T. gondii strains from different hosts and regions, which may be explored as a new genetic marker for population genetic studies of T. gondii isolates, and contributed to discovery of the new strategies for vaccination, treatment, or diagnosis.

Conflict of Interests
The authors declare that there is no conflict of interests in this paper.