AI Article Synopsis
- PCR is effective for detecting bacterial DNA but cannot differentiate between live and dead bacteria or free DNA; new methods have been developed to overcome this limitation.
- Molecular viability testing (MVT) assesses bacterial viability based on the synthesis of rRNA precursors, allowing for the detection of bacterial inactivation from various treatments, including UV irradiation.
- An alternative method, viability PCR (vPCR), struggles to differentiate between viable and UV-inactivated bacteria due to intact cell envelopes, highlighting the need for reliable viability testing methods in assessing the effectiveness of UV disinfection.
Article Abstract
PCR is effective in detecting bacterial DNA in samples, but it is unable to differentiate viable bacteria from inactivated cells or free DNA fragments. New PCR-based analytical strategies have been developed to address this limitation. Molecular viability testing (MVT) correlates bacterial viability with the ability to rapidly synthesize species-specific rRNA precursors (pre-rRNA) in response to brief nutritional stimulation. Previous studies demonstrated that MVT can assess bacterial inactivation by chlorine, serum, and low-temperature pasteurization. Here, we demonstrate that MVT can detect inactivation of , , and cells by UV irradiation. Some UV-inactivated cells transiently retained the ability to synthesize pre-rRNA postirradiation (generating false-positive MVT results), but this activity ceased within 1 h following UV exposure. Viable but transiently undetectable (by culture) cells were consistently detected by MVT. An alternative viability testing method, viability PCR (vPCR), correlates viability with cell envelope integrity. This method did not distinguish viable bacteria from UV-inactivated bacteria under some conditions, indicating that the inactivated cells retained intact cell envelopes. MVT holds promise as a means to rapidly assess microbial inactivation by UV treatment. UV irradiation is increasingly being used to disinfect water, food, and other materials for human use. Confirming the effectiveness of UV disinfection remains a challenging task. In particular, microbiological methods that rely on rapid detection of microbial DNA can yield misleading results, due to the detection of remnant DNA associated with dead microbial cells. This report describes a novel method that rapidly distinguishes living microbial cells from dead microbial cells after UV disinfection.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5411506 | PMC |
| http://dx.doi.org/10.1128/AEM.00331-17 | DOI Listing |
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