Trich-tracker – a practical tool to trace Trichinella spiralis transmission based on rapid, cost-effective sampling of genome-wide genetic variation

[Display omitted] •Trich-tracker is a novel cost-effective tool to investigate Trichinella spiralis outbreaks.•The method uses variation across the genome to discriminate between strains.•Trich-tracker distinguishes strains originating from separate outbreaks and wild isolates.•The flexibility of th...

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Bibliographic Details
Published in:International journal for parasitology 2022-02, Vol.52 (2-3), p.145-155
Main Authors: Bilska-Zając, Ewa, Rosenthal, Benjamin, Thompson, Peter
Format: Article
Language:English
Subjects:
Animals
Bayes Theorem
Cost-Benefit Analysis
ddRadseq
Genetic Variation
Outbreak tracing
Phylogeny
Trichinella - genetics
Trichinella spiralis
Trichinella spiralis - genetics
Trichinellosis - parasitology
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Summary:[Display omitted] •Trich-tracker is a novel cost-effective tool to investigate Trichinella spiralis outbreaks.•The method uses variation across the genome to discriminate between strains.•Trich-tracker distinguishes strains originating from separate outbreaks and wild isolates.•The flexibility of the method makes it applicable to any parasite system. Molecular epidemiology using traditional sequencing has been notoriously difficult in inbred parasites due to a lack of genetic variation available for discriminating among parasites. Next generation sequencing techniques offer a solution to this problem by increasing the number of loci that can be sequenced. Here, we introduce Trich-tracker, a tool that makes efficient use of diagnostic variation distributed throughout the genome of Trichinella spiralis to more rapidly, and conclusively, resolve connections and distinctions among focal outbreaks of T. spiralis. In particular, we rapidly characterised genetic variation among a sample of parasites from Polish farms and wildlife, sampling genomic variation using double digest restriction site-associated DNA sequencing (ddRADseq). Approximately 400,000 bases of sequence were generated from each sample and shown to be distributed across the genome with single nucleotide polymorphisms occurring at a frequency of approximately one base in 10,000. Both phylogenetic and Bayesian clustering analyses indicated that ddRADseq genotypes formed distinct clusters for specific outbreaks and were quite distinct from wild boar samples. Two of the investigated outbreaks were more similar to each other than to other outbreak samples, suggesting a link between these outbreaks. Hence, the Trich-tracker procedure identified informative genomic variation which afforded unprecedented epidemiological resolution. Trich-tracker is very flexible tool, quickly and inexpensively mining genomes of even highly inbred populations of T. spiralis to support outbreak investigations. The simplicity of the entire procedure, and time and cost effectiveness of Trich-tracker support its practical application in ongoing Trichinella outbreaks. The discriminating power of this tool is tunable and scalable, allowing application in a variety of epidemiological contexts, and is easily adapted to other parasite systems.
ISSN:0020-7519
1879-0135
DOI:10.1016/j.ijpara.2021.08.002