Abstract
Cryptosporidiosis is ranked sixth in the list of the most important food-borne parasites globally, and it is an important contributor to mortality in infants and the immunosuppressed. Recently, the number of genome sequences available for this parasite has increased drastically. The majority of the sequences are derived from population studies of Cryptosporidium parvum and Cryptosporidium hominis, the most important species causing disease in humans. Work with this parasite is challenging since it lacks an optimal, prolonged, in vitro culture system, which accurately reproduces the in vivo life cycle. This obstacle makes the cloning of isolates nearly impossible. Thus, patient isolates that are sequenced represent a population or, at times, mixed infections. Oocysts, the lifecycle stage currently used for sequencing, must be considered a population even if the sequence is derived from single-cell sequencing of a single oocyst because each oocyst contains four haploid meiotic progeny (sporozoites). Additionally, the community does not yet have a set of universal markers for strain typing that are distributed across all chromosomes. These variables pose challenges for population studies and require careful analyses to avoid biased interpretation. This review presents an overview of existing population studies, challenges, and potential solutions to facilitate future population analyses.
Highlights
Cryptosporidiosis is among the most important causes of diarrhea and diarrheaassociated death in young children in developing countries and is one of the major causes of waterborne outbreaks of illness in industrialized nations [1]
Even with whole genome sequencing (WGS), challenges still remain for determining the global population structure of C. parvum and C. hominis as well as other human-infecting species
The first assembled and annotated genome sequence was for C. parvum in 2004 [26]
Summary
Cryptosporidiosis is among the most important causes of diarrhea and diarrheaassociated death in young children in developing countries and is one of the major causes of waterborne outbreaks of illness in industrialized nations [1]. Cryptosporidium is an obligate, intracellular parasite that infects the epithelial cells of the digestive and respiratory tracts of a wide variety of hosts. It presents a significant public health problem, primarily for infants and the immunosuppressed [2]. Intra-species genetic structure diversity is observed in Cryptosporidium populations in endemic areas [11]. The available studies focused on all these parasite population structures are usually observed in outbreaks and are limited by specific geographic location. Even with whole genome sequencing (WGS), challenges still remain for determining the global population structure of C. parvum and C. hominis as well as other human-infecting species
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