AI Article Synopsis
- Ciliates are essential for ecosystem function, and understanding their abundance helps address key ecological questions.
- Traditional microscopy methods for quantifying ciliates are labor-intensive and biased, leading researchers to explore the use of digital polymerase chain reaction (dPCR) as a more effective alternative.
- The study found significant variations in rRNA gene copy numbers per ciliate cell but demonstrated that dPCR could accurately quantify ciliates, even in very low abundance samples, making it a useful tool for future ecological research.
Article Abstract
Ciliates play a key role in most ecosystems. Their abundance in natural samples is crucial for answering many ecological questions. Traditional methods of quantifying individual species, which rely on microscopy, are often labour-intensive, time-consuming and can be highly biassed. As a result, we investigated the potential of digital polymerase chain reaction (dPCR) for quantifying ciliates. A significant challenge in this process is the high variation in the copy number of the taxonomic marker gene (ribosomal RNA [rRNA]). We first quantified the rRNA gene copy numbers (GCN) of the model ciliate, Paramecium tetraurelia, during different stages of the cell cycle and growth phases. The per-cell rRNA GCN varied between approximately 11,000 and 130,000, averaging around 50,000 copies per cell. Despite these variations in per-cell rRNA GCN, we found a highly significant correlation between GCN and cell numbers. This is likely due to the coexistence of different cellular stages in an uncontrolled (environmental) ciliate population. Thanks to the high sensitivity of dPCR, we were able to detect the target gene in a sample that contained only a single cell. The dPCR approach presented here is a valuable addition to the molecular toolbox in protistan ecology. It may guide future studies in quantifying and monitoring the abundance of targeted (even rare) ciliates in natural samples.
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| http://dx.doi.org/10.1111/1462-2920.16619 | DOI Listing |
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