Chromosomal polymorphism, gene synteny and genome size in T. cruzi I and T. cruzi II groups

Abstract Pulsed-field gel electrophoresis and DNA hybridization were used to establish and compare some parameters of the molecular karyotype of nine stocks classified into Trypanosoma cruzi I and T. cruzi II groups. The isolates showed a variable number of chromosomal bands (17–22) comprised between 0.4 and 3.3 Mbp. The total number of chromosomes and the genome size were estimated based on the fluorescence intensity of SYBR Green I-stained chromosomal bands. Differences in the length of the telomeric regions among the stocks and between chromosomes of the same stock were observed. No correlation was found between the length of the telomeric region and the group to which the isolate belongs. Hybridization of 54 genetic markers revealed extensive chromosome size polymorphism. Nevertheless, the most represented pattern was the hybridization of the probes in larger chromosomes in stocks of T. cruzi II as compared to T. cruzi I. Eight putative syntenic groups, encompassing 29 non-redundant genetic markers and distributed in 11 CL Brener chromosomal bands were disclosed. The syntenic groups were conserved in all the stocks. The relative abundance of repetitive DNA sequences was determined. C6, B11/L1Tc and E12 elements presented maximum 1.7-fold variation in copy number, whereas 195-bp satellite DNA (120,000 copies in Y strain) was four- to nine-fold more abundant in T. cruzi II stocks. The novel aspects of T. cruzi karyotype here presented contribute to the comprehension of the genome organization of this parasite and will assist the assignment of scaffold to the CL Brener chromosomal bands.