Purification and characterization of precipitating antigens from Theileria parva

Babesia ovata: isolation from erythrocytes and development of an enzyme-linked immunosorbent assay for detection of antibodies

A method of isolating Babesia ovata merozoites from infected erythrocytes and an enzyme-linked immunosorbent assay (ELISA) for the detection of anti-B. ovata antibodies were developed. After B. ovata-infected erythrocytes had been lysed using the nitrogen cavitation method, the merozoites were separated from erythrocyte components by differential centrifugation and density-gradient centrifugation. The light microscopic examination showed that the purified merozoites were morphologically intact and contained few contaminants. Sodium dodecyl sulfate-polyacrylamide electrophoretic (SDS-PAGE) analysis revealed that the merozoite fraction contained very little contamination with erythrocyte components. The merozoites thus obtained were sonicated and treated with Triton X-100 and then used as an antigen to measure anti-B. ovata antibodies in ELISA. The ELISA was more sensitive in detecting anti-B. ovata antibodies than was either the indirect fluorescent antibody test or the complement fixation test on sera from cattle infected with B. ovata.

Theileria parva: genomic DNA studies reveal intra-specific sequence diversity

Theileria parva parva piroplasm DNA was purified from 11 different infections of cattle with 6 different East African isolates of the parasite. Total DNA was also prepared from bovine lymphoblastoid cells infected with schizonts of one of the isolates. Two of the infections were with cloned parasites. The DNA was of high molecular weight and free from protein and RNA, but some of the samples contained a proportion of bovine DNA. The 6 samples least contaminated with bovine DNA had a mean 'melting' temperature (Tm) of 84 degrees C and a mean GC content of 31.3%. Reassociation kinetics gave an estimate of 1.2 x 10(7) base pairs for the genome of T. parva. Repetitive restriction fragments were cloned from two samples, separated from the recombinant vectors and used as probes to demonstrate RFLPs between isolates. Discrimination into five groups was achieved. Schizont and piroplasm DNAs from the same isolate gave identical RFLPs, and one of the cloned parasites appeared to be a sub-population selected from a mixed-infection field isolate. Comparison of RFLPs with monoclonal antibody profiles suggested that neither technique yet provides discrimination between all the isolates which may comprise a strain. The importance of DNA probes for studying the epidemiology of theileriosis and for control programs is discussed.

Isoelectric focusing in agarose: a highly discriminatory method for the detection of enzyme heterogeneity

A comparison was made of the effectiveness of starch gel electrophoresis and isoelectric focusing in agarose for the separation of isoenzymes. Lactate dehydrogenase (LDH) of Theileria parva and glucose phosphate isomerase (GPI) of various cestodes were examined by the two techniques. Isoelectric focusing proved to be highly discriminatory, clearly distinguishing cestode orders and Taenia spp. which were closely similar by starch gel electrophoresis, and separating seven bands of Theileria-specific LDH activity which were not separable from normal bovine control bands on starch gels. The routine use of isoelectric focusing in agarose is therefore recommended for isoenzyme analysis.