KINETOPLAST DNA FROM PLANT TRYPANOSOMATIDS RESPONSIBLE FOR THE HARTROT DISEASE IN COCONUT TREES

Phytomonas parasites were isolated from crude sap of coconut trees affected with Hartrot disease in French Guyana (Hart 1 and Hart 2) and Brazil (Hart 3) and cultured in vitro. Two Phytomonas isolates obtained from weeds belonging to the Euphorbiaceae family and growing in an infected coconut tree plantation were also cultured (E hys and E hir). The kinetoplast DNA (kDNA) was purified and incubated with topoisomerase II which decatenates the huge network into free minicircles of 1.6 kilobase (kb) pair for Hart 1, Hart 2 and Hart 3 and 1.3 kb for E hys and E hir. Restriction endonuclease analysis showed that more than 90% of Hart 1 and Hart 2 minicircle content was homogeneous in base sequence while minicircles from Hart 3, E hys and E hir were heterogeneous. Minicircles exhibited restriction cleavage patterns characteristic of each Phytomonas isolate allowing their identification, except for the major class of Hart 1 and Hart 2 minicircles whose restriction maps were identical. Cross-hybridization experiments were performed by Southern blot. A high sequence homology was found between minicircles from Hart 1, Hart 2 and Hart 3 on one hand and those from E hys and E hir on the other. In contrast, minicircles from the Hartrot Phytomonas and those from the two Euphorbiaceae Phytomonas present little sequence homology. These data showed that minicircles from Phytomonas infecting coconut trees displayed biochemical properties different from those of other Phytomonas. This could lead to the elaboration of new molecular tools aimed to help to epidemiological studies, to an early diagnosis and to a better control of the disease.