A polymorphic minisatellite sequence in the subtelomeric regions of chromosomes I and V in Leishmania infantum.

A minisatellite DNA sequence is described for the first time in Leishmania infantum. It is borne by four chromosomes and consists of an 81-bp repeat unit organised in several clusters. On chromosomes I and V of L. infantum, the clusters are tightly located in the size-variable subtelomeric regions. The organisation of this sequence may be related to that of the subtelomeric interspersed repeat sequences identified in the human genome. The sequencing of seven repeat units, some subcloned from the same cluster, allowed the definition of a consensus sequence of 81 bp, particularly G/C rich (73%). Two subfamilies were clearly defined: one exhibits a 91-95% homology with the consensus sequence; the second one comprises two monomers sharing a 91% homology but only 77% homology with the consensus sequence. The two types of monomers can be found in the same cluster. These data suggest interactions between monomers and a possible role of this sequence in the instability of these regions. Finally, restriction fragment length polymorphisms were revealed by this sequence among various strains of L. infantum. Besides allowing the detection of recombination events in the unstable regions of the chromosomes, this new marker may become a useful tool in the study of the parasite population dynamics in leishmaniasis foci.