Figure S2. Relative expression of Babesia bigemina hap2 by TCEP-induced sexual stages is compared with non-induced B. bigemina blood stages. The means of three experiments, each containing three technical replicates are shown. *P < 0.001. (TIF 98 kb
A system biology approach was used to gain insight into tick biology and interactions between vector...
Figure S1. Babesia microti sequence alignment from embryos and tissues of the 18S rRNA gene for six ...
Additional file 3: Fig. S3. Multiple alignment of amino acid sequences corresponding to the CDPK4 of...
Figure S1. Babesia bigemina non-induced and TCEP-induced parasites viability were determined with 6-...
Figure S3. Detection methyltransferase gene (BBBOND_0204030) transcript of Babesia bigemina in in vi...
Alignment of the HAP2 putative amino acid sequences. a Comparison of the amino-acid sequences of HAP...
Abstract Background Bovine babesiosis is caused by apicomplexan pathogens of the genus Babesia such ...
Additional file 5: Table S1. Expression of B. bovis reference gene candidates during development of ...
Figure S2. Gene (a) and protein (b) expressions of larval ticks upon exposure to sublethal doses of ...
Figure S2. Soluble expression analysis of rBm2D97, rBm2D33, rBm2D41 and rBm7. M: MW markers; Lane 1:...
Additional file 1: Fig. S1. Clinical signs of B. bovis infection. a: Calf packed cell volume (PCV) a...
Figure S2. Time-dependent SELENOO (a) and SELENOS (b) transcriptional expression levels in uninfecte...
RT-PCR (a) and Western blotting (b) of knockdown ticks. Ticks were silenced by injecting 1 Îźg of do...
Figure S1. Experimental confirmation of predicted pathogens of interest predicted by bioinformatics....
Table S2. Babesia microti infection prevalence in reproductive tissues (ES, embryonic sac). (DOCX 14...
A system biology approach was used to gain insight into tick biology and interactions between vector...
Figure S1. Babesia microti sequence alignment from embryos and tissues of the 18S rRNA gene for six ...
Additional file 3: Fig. S3. Multiple alignment of amino acid sequences corresponding to the CDPK4 of...
Figure S1. Babesia bigemina non-induced and TCEP-induced parasites viability were determined with 6-...
Figure S3. Detection methyltransferase gene (BBBOND_0204030) transcript of Babesia bigemina in in vi...
Alignment of the HAP2 putative amino acid sequences. a Comparison of the amino-acid sequences of HAP...
Abstract Background Bovine babesiosis is caused by apicomplexan pathogens of the genus Babesia such ...
Additional file 5: Table S1. Expression of B. bovis reference gene candidates during development of ...
Figure S2. Gene (a) and protein (b) expressions of larval ticks upon exposure to sublethal doses of ...
Figure S2. Soluble expression analysis of rBm2D97, rBm2D33, rBm2D41 and rBm7. M: MW markers; Lane 1:...
Additional file 1: Fig. S1. Clinical signs of B. bovis infection. a: Calf packed cell volume (PCV) a...
Figure S2. Time-dependent SELENOO (a) and SELENOS (b) transcriptional expression levels in uninfecte...
RT-PCR (a) and Western blotting (b) of knockdown ticks. Ticks were silenced by injecting 1 Îźg of do...
Figure S1. Experimental confirmation of predicted pathogens of interest predicted by bioinformatics....
Table S2. Babesia microti infection prevalence in reproductive tissues (ES, embryonic sac). (DOCX 14...
A system biology approach was used to gain insight into tick biology and interactions between vector...
Figure S1. Babesia microti sequence alignment from embryos and tissues of the 18S rRNA gene for six ...
Additional file 3: Fig. S3. Multiple alignment of amino acid sequences corresponding to the CDPK4 of...