Phylogenetic history of helminths through whole genome variants analysis: the case of the new Echinococcus oligarthrus genome

GABRIEL LISCHTESTEIN; LAURA KAMENETZKY; LUCAS L MALDONADO; MARA CECILIA ROSENZVIT; ARRABAL, J.P; GUILHERME OLIVEIRA

Mendoza

Congreso; A2B2C 10th Meeting; 2019

Asociación Argentina de Bioinformática y Biología Computacional

ABSTRACT: The first parasitic helminth genome sequence was published in 2007, since then only ~200 genomes have become available, most of them being draft assemblies. Nevertheless, despite the medical and economical global impact of helminthic infections, parasites genomes in public databases are under-represented. Recently, through an integrative approach involving morphological, genetic and ecological aspects, we have demonstrated that the complete life cycle of Echinococcus oligarthrus (Cestoda: Taeniidae) is present in South America. The neotropical E. oligarthrus parasite is capable of developing in any felid species and producing human infections. Neotropical echinococcosis is poorly understood yet and requires a complex medical examination to provide the appropriate intervention. Only a few cases of echinococcosis have been unequivocally identified and reported as consequence of E. oligarthrus infections. Regarding phylogenetics, the analyses of mitogenomes and nuclear data sets have resulted in discordant topologies and there is no unequivocal taxonomic classification of Echinococccus species so far. In this work, we sequenced and assembled the genome of E. oligarthrus that was isolated from agoutis (Dasyprocta azarae) naturally infected and performed the first comparative genomic study of a neotropical Echinococcus species. The E. oligarthrus genome assembly consisted of 86.22 Mb which showed ⁓90% of identity and 76.3% of coverage with Echinococcus multilocularis and contained the 85.0% of the total expected genes. Genetic variants analysis of whole genome revealed a higher rate of intraspecific genetic variability (23,301 SNPs; 0.22 SNPs/Kb) rather than for the genomes of E. multilocularis and Echinococcus canadensis G7 but lower with respect to Echinococcus granulosus G1. Comparative genomics against E. multilocularis, E. granulosus G1 and E. canadensis G7 revealed 38,762; 125,147 and 170,049 homozygous polymorphic sites respectively, indicating a higher genetic distance between E. oligarthrus and Echinococcus granulosus sensu lato species. The SNPs distribution in chromosomes revealed a higher SNPs density in the longest chromosomes. Phylogenetic analysis using whole genome SNPs demonstrated that E. oligarthrus is one of the basal species of the genus Echinococcus and is phylogenetically closer to E. multilocularis. This work sheds light on the Echinococcus phylogeny and settles the basis to study sylvatic Echinococcus species and their developmental evolutionary features.