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Stable transfection system for Babesia sp. Xinjiang.

Parasites & vectors (2021-09-11)
Jinming Wang, Xiaoxing Wang, Guiquan Guan, Jifei Yang, Junlong Liu, Aihong Liu, Youquan Li, Jianxun Luo, Hong Yin
ABSTRACT

Stable transfection systems have been described in many protozoan parasites, including Plasmodium falciparum, Cryptosporidium parvum, Babesia bovis, Babesia ovata, and Babesia gibsoni. For Babesia sp. Xinjiang (Bxj), which is the causative pathogen of ovine babesiosis and mainly prevails across China, the platform of those techniques remains absent. Genetic manipulation techniques are powerful tools to enhance our knowledge on parasite biology, which may provide potential drug targets and diagnostic markers. We evaluated the inhibition efficiency of blasticidin (BSD) and WR99210 to Bxj. Then, a plasmid was constructed bearing selectable marker BSD, green fluorescent protein (GFP) gene, and rhoptry-associated protein-1 3' terminator region (rap 3' TR). The plasmid was integrated into the elongation factor-1 alpha (ef-1α) site of Bxj genome by cross-over homologous recombination technique. Twenty μg of plasmid was transfected into Bxj merozoites. Subsequently, drug selection was performed 24 h after transfection to generate transfected parasites. Transfected parasite lines, Bxj-c1, Bxj-c2, and Bxj-c3, were successfully obtained after transfection, drug selection, and colonization. Exogenous genes were integrated into the Bxj genome, which were confirmed by PCR amplification and sequencing. In addition, results of western blot (WB) and indirect immunofluorescence assay (IFA) revealed that GFP-BSD had expressed for 11 months. In our present study, stable transfection system for Bxj was successfully developed. We anticipate that this platform will greatly facilitate basic research of Bxj.

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Sigma-Aldrich
Monoclonal Anti-GFP antibody produced in mouse, clone GT7312, affinity isolated antibody