Abstract
BackgroundTick-borne Babesia bigemina is responsible for acute and potentially lethal hemolytic disease in cattle. The development of genetic manipulation tools necessary to the better understanding of parasite biology is currently limited by the lack of a complete parasite genome and experimental tools such as transfection. Effective promoters, required to regulate expression of transgenes, such as the elongation factor-1 alpha (ef-1α), have been identified in other apicomplexans such as Babesia bovis and Plasmodium falciparum. MethodsThe B. bigemina ef-1a locus was defined by searching a partial genome library of B. bigemina (Sanger Institute). Presence of an intron in the 5’ untranslated region was determined by 5’ Rapid Amplification of cDNA Ends (RACE) analysis. Promoter activity was determined by measurement of luciferase expression at several time points after electroporation, efficiency of transfections and normalization of data was determined by quantitative PCR and by the percentage of parasitized erythrocytes.ResultsThe ef-1α locus contains two identical head to head ef-1α genes separated by a 1.425 kb intergenic (IG) region. Significant sequence divergence in the regions upstream of the inverted repeats on each side of the B. bigemina IG region suggest independent regulation mechanisms for controlling expression of each of the two ef-1α genes. Plasmid constructs containing the 5’ and 3’ halves of the IG regions controlling the expression of the luciferase gene containing a 3’ region of a B. bigemina rap-1a gene, were generated for the testing of luciferase activity in transiently transfected parasites. Both halves of the ef-1α IG region tested showed the ability to promote high level production of luciferase. Moreover, both B. bigemina ef-1α promoters are also active in transiently transfected B. bovis and conversely, a B. bovis ef-1α promoter is active in transiently transfected B. bigemina. ConclusionsCollectively these data demonstrate the existence of two distinct promoters with homologous and heterologous promoter function in B. bigemina and B. bovis which is described for the first time in Babesia species. This study is of significance for development of interspecies stable transfection systems for B. bigemina and for B. bovis.Electronic supplementary materialThe online version of this article (doi:10.1186/s13071-016-1859-9) contains supplementary material, which is available to authorized users.
Highlights
Tick-borne Babesia bigemina is responsible for acute and potentially lethal hemolytic disease in cattle
These data suggests that the B. bigemina genome contains an ef-1α locus which is structurally similar to the locus found in B. bovis and Plasmodium [12]
A full and identical ef-1α gene copy A was found to be located in the 5′ region upstream of the incomplete sequence reported in the Sanger database in the Puerto Rico B. bigemina strain
Summary
Tick-borne Babesia bigemina is responsible for acute and potentially lethal hemolytic disease in cattle. Bovine babesiosis can be in part controlled using live attenuated vaccines, but these vaccines are challenging to produce and distribute, have safety risks and a limited shelf life [2]. The existence of numerous research gaps concerning hostparasite relationships limit options for the development of improved methods for control. Novel research tools are needed in order to close such knowledge gaps and support development of new methods to control Babesia parasites and its vectors [3]. Babesia bovis and B. bigemina are the main parasites responsible for bovine babesiosis in terms of global parasite distribution, while Babesia divergens is mainly prevalent in the European continent [1]
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