Kinetoplast DNA permits characterization of pathogenic plant trypanosomes of economic importance

Twelve Phytomonas isolates were obtained from different plants originating from several countries and cultured in vitro in complex media. The kinetoplast DNA (kDNA) was purified and observed by electron microscopy. The structure of kDNA from all isolates appeared as a large network of interlocked minicircles with some maxicircles extruding from the network, as has often been shown for Trypanosomatidae. Topoisomerase II resolved the kDNA network into free minicircles which were then analyzed by electron microscopy and by electrophoresis in agarose gel. The minicircle sizes varied from 1.3 to 2.8 kilobase pairs according to the Phytomonas isolate. The analysis by restriction endonucleases revealed a base sequence heterogeneity in the minicircles of 10 of these Phytomonas isolates. By contrast, in 2 Phytomonas isolates, more than 90% of their minicircle content was found to be homogeneous. Most interestingly, the minicircle cleavage patterns were found to be different between Phytomonas isolates and thus could be used to distinguish them.