AI Article Synopsis
- The study focuses on improving the isolation and identification of Amoebae from soil samples, which is typically a complex and time-consuming process.
- It emphasizes the use of PCR testing for soil DNA to streamline protozoa habitat screening and proposes a new extraction method to overcome issues caused by DNA-adsorbing substances in soil.
- The results showed that a specific protocol for DNA extraction enabled successful amplification of protozoan DNA, making it easier to study their habitats and genetics.
Article Abstract
Objectives: Microorganisms in environmental samples are identified by sequential screening, isolation, and culture steps, followed by the verification of physiological characteristics and morphological classification. Isolation and purification of Amoebae from soil samples is extremely complex, laborious, and time-consuming and require considerable expertise for morphological evaluation. PCR testing of soil DNA seems to be an effective means for protozoa habitat screening. In this study, we added sp. (MK strain) to soil and developed a method of extracting protozoan DNA from the soil.
Methods: Soil allophane is a known DNA adsorbing substance that inhibits the PCR reaction. After comparing the soil properties and allophane contents of 7 soil samples, we attempted to combine multiple cell disruption and DNA purification methods to design an optimal soil DNA extraction method that can be used for downstream PCR analysis.
Results: We compared five different crushing/refining methods. Amplification of the gene was confirmed by specific PCR in protocol V where the concentration of in soil (1.0 × 10/g) was the detection limit of PCR.
Conclusion: The soil DNA extraction method following protocol V allows DNA amplification of protozoa, including Amoeba, which is difficult to cultivate, thus simplifying the investigation of protozoa habitats and genetic analyses.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC6324249 | PMC |
| http://dx.doi.org/10.1016/j.parepi.2018.e00081 | DOI Listing |
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