Estimation of archaeal numbers by use of fluorescent DNA binding dyes is challenging, because primers targeting the archaeal 16SrRNA genes readily also bind to bacterial 16S rRNA gene sequences, especially when the relative abundance of bacteria is greater than that of archaea. In order to increase specificity, we optimized a fluorescent probe-based assay using previously published archaeal primers and probe. The assay was tested on genomic DNA of pure bacterial and archaeal cultures and optimized using PCR amplicons of the archaeal pure cultures. The used bacterial strains showed slight amplification using the fluorescent dye assay, whereas all archaeal strains could be amplified with the archaea primers used. Due to differences in genome size and number of 16S rRNA gene copies between the tested archaeal strains, the amplification level varied greatly between the strains. Therefore, we also tested the amplification using PCR amplified fragments of the archaeal 16S rRNA genes. The tests with the archaeal 16S rRNA gene amplicons showed good amplification, although the amplification efficiency still varied between archaeal strains. The qPCR assay was used to estimate the archaeal numbers in process water of a multi-metal mine's metallurgical plant [1] and will be used in similar future microbiological analysis included in the H2020 ITERAMS project (Grant agreement# 730480).
Keywords: Bacteria; Bioinformatics; High throughput sequencing; Microbial metabolism; Microorganisms in mine processing water.
© 2020 The Author(s).