Molecular Detection of <i>Cyclospora cayetanensis</i> in Two Main Types of Farm Soil Using Real-Time PCR Assays and Method Modification for Commercial Potting Mix

<i>Cyclospora cayetanensis</i> is a foodborne protozoan parasite that causes outbreaks of diarrheal illness (cyclosporiasis) with clear seasonality worldwide. In the environment, <i>C. cayetanensis</i> oocysts are very robust, and contact with contaminated soil may serve as a...

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Bibliographic Details
Main Authors: Joseph Arida, Alicia Shipley, Sonia Almeria
Format: Article
Language:English
Published: MDPI AG 2023-06-01
Series:Microorganisms
Subjects:
Online Access:https://www.mdpi.com/2076-2607/11/6/1506
Description
Summary:<i>Cyclospora cayetanensis</i> is a foodborne protozoan parasite that causes outbreaks of diarrheal illness (cyclosporiasis) with clear seasonality worldwide. In the environment, <i>C. cayetanensis</i> oocysts are very robust, and contact with contaminated soil may serve as an important vehicle in the transmission of this organism, and it is considered a risk factor for this infection. The present study evaluated a flotation concentration method, previously shown to provide the best detection results when compared with DNA isolation directly from soil samples, in two main types of farm soil, silt loam soil and sandy clay loam, as well as in commercial potting mix samples inoculated with different numbers of <i>C. cayetanensis</i> oocysts. The flotation method was able to detect as few as 10 oocysts in 10 g of either type of farm soil without modifications, but needed an extra wash and samples of reduced size for the processing of the commercial potting mix to be able to detect 20 oocysts/5 g. A recently modified real-time PCR method for the detection of <i>C. cayetanensis</i> based on a mitochondrial gene target was also evaluated using selected samples of each type of soil. This comparative study confirmed that the concentration of oocysts in soil samples by flotation in high-density sucrose solutions is a sensitive method that can detect low numbers of oocysts in different types of soil.
ISSN:2076-2607