BACKGROUND: The roundworms, Parascaris spp., are important nematode parasites of foals and were historically model organisms in the field of cell biology, leading to many important discoveries. According to karyotype, ascarids in Equus are commonly divided into Parascaris univalens (2n = 2) and Parascaris equorum (2n = 4).
METHODS: Here, we performed morphological identification, karyotyping and sequencing of roundworms from three different hosts (horses, zebras and donkeys). Phylogenetic analysis was performed to study the divergence of these ascarids based on cytochrome c oxidase subunit I (COI) and internal transcribed spacer (ITS) sequences.
RESULTS: Karyotyping, performed on eggs recovered from worms of three different Equus hosts in China, showed two different karyotypes (2n = 2 in P. univalens collected from horses and zebras; 2n = 6 in Parascaris sp. collected from donkeys). There are some differences in the terminal part of the spicula between P. univalens (concave) and Parascaris sp. (rounded). Additionally, it was found that the egg\'s chitinous layer was significantly thicker in Parascaris sp. (> 5 μm) than P. univalens (< 5 μm) (F(2537) = 1967, P < 0.01). Phylogenetic trees showed that the sequences of Parascaris from Equus hosts were divided into two distinct lineages based on sequences of the COI and ITS.
CONCLUSIONS: Comparing the differences in roundworms collected from three different Equus hosts, this study describes a Parascaris species (Parascaris sp.) with six chromosomes in donkeys. It is worth noting that the thickness of the chitinous layer in the Parascaris egg may serve as a diagnostic indicator to distinguish the two roundworms (P. univalens and Parascaris sp.). The Parascaris sp. with six chromosomes in donkeys in the present study may be a species of P. trivalens described in 1934, but the possibility that it is a new Parascaris species cannot be ruled out. Both karyotyping and molecular analysis are necessary to solve the taxonomic problems in Parascaris species.

The equine Parascaris spp. is large, parasitic nematodes, and predominantly focuses on the intestine of foals and young weanlings. There are two roundworms, Parascaris equorum and Parascaris univalens, recognized among equine hosts. In this study, all fifty-nine Parascaris worms were harvested from three different equine hosts (twenty specimens from Equus zebra, twenty specimens from E. caballus, and nineteen specimens from E. asinus). The ribosomal gene (ITS) and mitochondrial genes (cox1 and nadh1) were amplified to identify and genetically characterize these worms. Analysis of ITS sequences revealed five genotypes among the fifty-nine worms, and the sequence similarity among the worms from E. zebra and E. caballus was at a high level (99.87%), while the one of E. asinus worms showed an apparent difference from the worms either from the E. zebra or from the E. caballus (sequence similarity ranging from 93.04 to 93.42%). Analysis of mitochondrial genes revealed that twenty-one (cox1 gene) and thirteen (nadh1 gene) unique haplotypes were defined among the fifty-nine worms. The shared haplotypes (four cox1 haplotypes and one nadh1 haplotype) only occurred between the worm populations from E. zebra and E. caballus. The cox1 and nadh1 haplotype sequences were respectively applied to construct phylogenetic trees. Although the topologies showed that E. asinus worm population had an obvious boundary with the worm populations of the E. zebra and the E. caballus, however, no noticeable boundary was found within the two later worm populations. Meanwhile, the E. asinus worm population showed an obvious genetic differentiation and an extremely low gene flow (close to zero) with the worm populations from E. zebra and E. caballus, indicating that the genetic characteristics of the worms from the E. asinus have an obvious difference with the one from E. zebra and E. caballus.