Author:
Cinar Hediye Nese,Gopinath Gopal,Murphy Helen R.,Almeria Sonia,Durigan Mauricio,Choi Dajung,Jang AhYoung,Kim Eunje,Kim RaeYoung,Choi Seonju,Lee Jeongu,Shin Yurim,Lee Jieon,Qvarnstrom Yvonne,Benedict Theresa K.,Bishop Henry S.,da Silva Alexandre
Abstract
Abstract
Background
Outbreaks of cyclosporiasis, a diarrheal illness caused by Cyclospora cayetanensis, have been a public health issue in the USA since the mid 1990’s. In 2018, 2299 domestically acquired cases of cyclosporiasis were reported in the USA as a result of multiple large outbreaks linked to different fresh produce commodities. Outbreak investigations are hindered by the absence of standardized molecular epidemiological tools for C. cayetanensis. For other apicomplexan coccidian parasites, multicopy organellar DNA such as mitochondrial genomes have been used for detection and molecular typing.
Methods
We developed a workflow to obtain complete mitochondrial genome sequences from cilantro samples and clinical samples for typing of C. cayetanensis isolates. The 6.3 kb long C. cayetanensis mitochondrial genome was amplified by PCR in four overlapping amplicons from genomic DNA extracted from cilantro, seeded with oocysts, and from stool samples positive for C. cayetanensis by diagnostic methods. DNA sequence libraries of pooled amplicons were prepared and sequenced via next-generation sequencing (NGS). Sequence reads were assembled using a custom bioinformatics pipeline.
Results
This approach allowed us to sequence complete mitochondrial genomes from the samples studied. Sequence alterations, such as single nucleotide polymorphism (SNP) profiles and insertion and deletions (InDels), in mitochondrial genomes of 24 stool samples from patients with cyclosporiasis diagnosed in 2014, exhibited discriminatory power. The cluster dendrogram that was created based on distance matrices of the complete mitochondrial genome sequences, indicated distinct strain-level diversity among the 2014 C. cayetanensis outbreak isolates analyzed in this study.
Conclusions
Our results suggest that genomic analyses of mitochondrial genome sequences may help to link outbreak cases to the source.
Publisher
Springer Science and Business Media LLC
Subject
Infectious Diseases,Parasitology
Cited by
20 articles.
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