Mitochondrial genome of Babesia orientalis, apicomplexan parasite of water buffalo (Bubalus babalis, Linnaeus, 1758) endemic in China

• Published in: Parasites & vectors Vol. 7; no. 1; p. 82
• Main Authors: He, Lan, Zhang, Ying, Zhang, Qing-Li, Zhang, Wen-Jie, Feng, Hui-Hui, Khan, Muhammad Kasib, Hu, Min, Zhou, Yan-Qin, Zhao, Jun-Long
• Format: Journal Article
• Language: English
• Published: England Springer-Verlag 28.02.2014; BioMed Central Ltd; BioMed Central; BMC
• Subjects: amino acid sequences; Amino acids; Animals; Babesia; Babesia - genetics; Babesia - isolation & purification; Babesia orientalis; Babesiosis - parasitology; Base Sequence; Bubalus; buffaloes; Buffaloes - parasitology; China; computer software; cytochrome b; cytochrome-c oxidase; DNA Primers - genetics; DNA, Protozoan - genetics; epidemiological studies; Epidemiology; genes; Genetic aspects; Genome, Mitochondrial - genetics; Genome, Protozoan - genetics; mitochondrial DNA; Mitochondrial genome; Mitochondrion; Molecular Sequence Annotation; Molecular Sequence Data; new species; nucleotide sequences; parasites; Phylogeny; Physiological aspects; Plasmodium falciparum; polymerase chain reaction; Population genetics; Protozoan Proteins - genetics; ribosomal RNA; Sequence Analysis, DNA; Theileria parva; China; China, People's Rep., Hubei Prov., Wuhan
• ISSN: 1756-3305; 1756-3305
• DOI: 10.1186/1756-3305-7-82

BACKGROUND: Apicomplexan parasites of the genus Babesia, Theileria and Plasmodium are very closely related organisms. Interestingly, their mitochondrial (mt) genomes are highly divergent. Among Babesia, Babesia orientalis is a new species recently identified and specifically epidemic to the southern part of China, causing severe disease to water buffalo. However, no information on the mt genome of B. orientalis was available. METHODS: Four pairs of primers were designed based on the full genome sequence of B. orientalis (unpublished data) and by aligning reported mt genomes of B. bovis, B. bigemina, and T. parva. The entire mt genome was amplified by four sets of PCR. The obtained mt genome was annotated by aligning with published apicomplexan mt genomes and Artemis software v11. Phylogenetic analysis was performed by using cox1 and cob amino acid sequences. RESULTS: The complete mt genome of B. orientalis (Wuhan strain) was sequenced and characterized. The entire mt genome is 5996 bp in length with a linear form, containing three protein-coding genes including cytochrome c oxidase I (cox1), cytochrome b (cob) and cytochrome c oxidase III (cox3) and six rRNA large subunit gene fragments. The gene arrangement in B. orientalis mt genome is similar to those of B. bovis, B. gibsoni and Theileria parva, but different from those of T. orientalis, T. equi and Plasmodium falciparum. Comparative analysis indicated that cox1 and cob genes were more conserved than cox3. Phylogenetic analysis based on amino acid sequences of cox1, cob and cox1 + cob, respectively, revealed that B. orientalis fell into Babesia clade with the closest relationship to B. bovis. CONCLUSIONS: The availability of the entire mt genome sequences of B. orientalis provides valuable information for future phylogenetic, population genetics and molecular epidemiological studies of apicomplexan parasites.