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A next generation sequencing assay combining Ixodes species identification with pathogen detection to support tick surveillance efforts in the United States

Lynn M. Osikowicz, Sarah E. Maes, Rebecca J. Eisen, Andrias Hojgaard

2024Ticks and Tick-borne Diseases10 citationsDOIOpen Access PDF

Abstract

The burden of tick-borne diseases continues to increase in the United States. Tick surveillance has been implemented to monitor changes in the distribution and prevalence of human disease-causing pathogens in ticks that frequently bite humans. Such efforts require accurate identification of ticks to species and highly sensitive and specific assays that can detect and differentiate pathogens from genetically similar microbes in ticks that have not been demonstrated to be pathogenic in humans. We describe a modification to a next generation sequencing pathogen detection assay that includes a target that accurately identifies Ixodes ticks to species. We show that the replacement of internal control primers used to ensure assay performance with primers that also act as an internal control and can additionally differentiate tick species, retains high sensitivity and specificity, improves efficiency, and reduces costs by eliminating the need to run separate assays to screen for pathogens and for tick identification.

Topics & Concepts

BiologyTickTick-borne diseasePathogenIxodesIdentification (biology)Ixodes scapularisVirologyComputational biologyIxodidaeMicrobiologyEcologyVector-borne infectious diseasesInsect symbiosis and bacterial influencesInsect and Pesticide Research
A next generation sequencing assay combining Ixodes species identification with pathogen detection to support tick surveillance efforts in the United States | Litcius