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Sympatric Recombination in Zoonotic Cryptosporidium Leads to Emergence of Populations with Modified Host Preference

Tianpeng Wang, Yaqiong Guo, Dawn M. Roellig, Na Li, Mónica Santı́n, Jason E. Lombard, Martin Kváč, Doaa Naguib, Ziding Zhang, Yaoyu Feng, Lihua Xiao

2022Molecular Biology and Evolution41 citationsDOIOpen Access PDF

Abstract

Genetic recombination plays a critical role in the emergence of pathogens with phenotypes such as drug resistance, virulence, and host adaptation. Here, we tested the hypothesis that recombination between sympatric ancestral populations leads to the emergence of divergent variants of the zoonotic parasite Cryptosporidium parvum with modified host ranges. Comparative genomic analyses of 101 isolates have identified seven subpopulations isolated by distance. They appear to be descendants of two ancestral populations, IIa in northwestern Europe and IId from southwestern Asia. Sympatric recombination in areas with both ancestral subtypes and subsequent selective sweeps have led to the emergence of new subpopulations with mosaic genomes and modified host preference. Subtelomeric genes could be involved in the adaptive selection of subpopulations, while copy number variations of genes encoding invasion-associated proteins are potentially associated with modified host ranges. These observations reveal ancestral origins of zoonotic C. parvum and suggest that pathogen import through modern animal farming might promote the emergence of divergent subpopulations of C. parvum with modified host preference.

Topics & Concepts

BiologySympatric speciationHost adaptationHost (biology)Cryptosporidium parvumGeneticsRecombinationEvolutionary biologyAdaptation (eye)GeneGenomeNeuroscienceParasitic Infections and DiagnosticsCoccidia and coccidiosis researchVector-borne infectious diseases
Sympatric Recombination in Zoonotic Cryptosporidium Leads to Emergence of Populations with Modified Host Preference | Litcius