Validation of a polymerase chain reaction–oligochromatography test for detection of influenza A (H1N1) 2009 virus

A fluorescence method for homogeneous detection of influenza A DNA sequence based on guanine-quadruplex-N-methylmesoporphyrin IX complex and assistance-DNA inhibition

In his study, we report a fluorescence method for homogeneous detection of influenza A (H1N1) DNA sequence based on G-quadruplex-NMM complex and assistance-DNA (A-DNA) inhibition. The quadruplex-based functional DNA (QBF-DNA), composed of a complementary probe to the target H1N1 DNA sequence and G-rich fragment, was designed as the signal DNA. The A-DNA consisted of two parts, one part was complementary to target H1N1 DNA and the other part was complementary to the signal DNA. In the absence of target H1N1 DNA, the G-rich fragment of QBF-DNA can form G-quadruplex-NMM complex, which outputted a fluorescent signal. With the presence of target H1N1 DNA, QBF-DNA, and A-DNA can simultaneously hybridize with target H1N1 DNA to form double-helix structure. In this case, the A-DNA partially hybridized with the QBF-DNA, which inhibited the formation of G-quadruplex-NMM complex, leading to the decrease of fluorescent signal. Under the optimum conditions, the fluorescence intensity was inversely proportional to the concentration of target H1N1 DNA over the range from 25 to 700 pmol/L with a detection limit of 8 pmol/L. In addition, the method is target specific and practicability, and would become a new diagnostic assay for H1N1 DNA sequence and other infectious diseases.

A colorimetric method for H1N1 DNA detection using rolling circle amplification

A highly sensitive and specific colorimetry-based rolling circle amplification (RCA) assay has been successfully developed as a method for the effective detection of H1N1 DNA. Specific oligonucleotide and reporter primer probes were designed together with a circular template, and the oligonucleotide probes were attached to the surfaces of magnetic beads (MBs) to form functional MB-DNA conjugates as capture probes for the target H1N1 DNA molecules. Together with the addition of DNA targets and reporter primer probes to the MB-DNA conjugates, sandwiched hybrids were formed. The initiation of RCA amplification using the circular template in the presence of phi29 polymerase allowed for the amplification of a large number of repeat sequences of the single-stranded (ss)-DNA product. This RCA product accumulated gold nanoparticles (AuNPs), resulting in a colorimetric change that could be viewed by the naked eye or detected using UV-vis spectroscopy. According to this method, H1N1 DNA could be detected at the 1 pmol L(-1) level. This platform exhibited design convenience, simplicity, and cost-effectiveness, and could be used to provide a new diagnostic assay for H1N1, and other infectious diseases.