Abstract
Molecular detection assays are increasingly becoming routine diagnostic techniques for bacterial infection; however, their sensitivities are restricted by the low concentrations of bacteria in clinical samples. Here, we report a new paradigm for ultrasensitive detection of bacteria. The principle of this approach is that by choosing highly transcribed genes as signature sequences and detecting both DNA and its RNA transcripts, assay sensitivity can be greatly improved. First, signature genes with abundant transcripts were screened by RNA-Seq. We confirmed that RT-PCR efficiently amplifies both DNA and RNA, while PCR amplifies only DNA. Unexpectedly, we found that the RNA extraction efficiency is relatively low, while simplified denaturation was more appropriate for transcript detection. For highly transcribed genes, RT-PCR consistently generated lower cycle threshold (Ct) values than those of PCR. The sensitivity of RT-PCR targeting abundant transcripts could detect quantities as low as one bacterium, which was not possible using PCR. Amplification of different genes among several other common bacteria also confirmed that transcript detection by RT-PCR is more sensitive than is DNA detection by PCR. Therefore, abundant transcript detection represents a universal strategy for ultrasensitive detection of bacteria.
Highlights
Molecular detection assays are increasingly becoming routine diagnostic techniques for bacterial infection; their sensitivities are restricted by the low concentrations of bacteria in clinical samples
We have designed a new strategy for ultrasensitive detection of bacteria
By using Brucella as a test model, we have demonstrated that some genes are transcribed at high levels, and RT-Polymerase chain reaction (PCR) could detect both DNA and RNA
Summary
Molecular detection assays are increasingly becoming routine diagnostic techniques for bacterial infection; their sensitivities are restricted by the low concentrations of bacteria in clinical samples. We report a new paradigm for ultrasensitive detection of bacteria The principle of this approach is that by choosing highly transcribed genes as signature sequences and detecting both DNA and its RNA transcripts, assay sensitivity can be greatly improved. Polymerase chain reaction (PCR) is the most popular technique for molecular detection of pathogens For viral pathogens, their genomic nucleic acids exist in high abundance in clinical samples, making them easy to detect[6]. Development of a new strategy that increases the detection sensitivity for bacterial pathogens will be of great value. Since the number of bacteria in a clinical sample is predefined, detection sensitivity when targeting genomic DNA is limited. We report the development of a universal strategy for ultrasensitive detection of bacteria
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