Dye-based qPCR assays for the separate quantification of total bacterial, fungal, arthropod, and plant DNA
Teresa M. Tiedge, Kim R. Love, Kelly A. Meiklejohn

TL;DR
This paper introduces validated dye-based qPCR assays to separately quantify bacterial, fungal, arthropod, and plant DNA in environmental samples.
Contribution
The study provides rigorously validated qPCR assays for quantifying total DNA from four major taxa in environmental samples.
Findings
The four assays are specific, sensitive, and reproducible for quantifying DNA from single-source and mixed environmental samples.
Melt curve temperatures were identified for each taxon to confirm assay specificity.
Standard curves using synthetic DNA enabled accurate quantification of the target DNA molecules.
Abstract
Characterization of bacterial, fungal, arthropod, and plant communities from bulk environmental samples can enhance our understanding of the biodiversity on Earth and aid in biomonitoring of various biomes. An important step in any molecular biology protocol is DNA quantification. While fast methods that determine the total amount of DNA in a sample are widely available, quantitative polymerase chain reaction (qPCR) is often preferred as it permits quantification of specific DNA molecules of interest. Currently, commercial qPCR assays are only available to quantify total bacterial and fungal DNA; limited studies describe the use of qPCR to quantify total arthropod and plant DNA. Here we describe the rigorous validation of four dye-based qPCR assays to separately quantify total bacterial, fungal, arthropod, and plant DNA following the MIQE guidelines. Validation experiments included…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsEnvironmental DNA in Biodiversity Studies · Microbial Community Ecology and Physiology · Insect symbiosis and bacterial influences
