A strip of lateral flow gene assay using gold nanoparticles for point-of-care diagnosis of African swine fever virus in limited environment.

Recombinase polymerase amplification (RPA) was combined with lateral flow to develop a gold nanoparticles test strip for point-of-care diagnosis of African swine fever virus (ASFV), which is called lateral flow gene assay (LFGA). Common diagnostic techniques, including polymerase chain reaction (PCR) and immunochromatography, are time-consuming and labor-intensive, and generally require costly instruments. For improvement, this assay used tailed primers to produce DNA duplexes with a single-stranded tail at one end which can hybridize with a gold nanoparticle (AuNP)-labeled oligonucleotide detection probe. And then, biotin attached to the other end of the product bound to streptavidin, which previously fixed to the test line. Therefore, there would form a sandwich structure, and gold nanoparticles labeled on the detection probe would show a red band on the test line of strip. With the low reaction temperature (37~42 °C) and short reaction time (30 min), LFGA can specifically identify ASFV in blood samples infected with ASFV and classical swine fever virus (CSFV), and the LOD was 102 copies/μL, which was comparable to that of agarose gel electrophoresis. In addition, blood samples infected with ASFV and CSFV were tested, and it was found that the LFGA can specifically identify ASFV DNA. In conclusion, LFGA achieves visual observation of the product after rapid RPA amplification and does not require any expensive instruments during the entire process, which is very helpful for early diagnosis of ASFV. Combined recombinase polymerase amplification (RPA) with lateral flow, we developed a gold nanoparticles test strip for point-of-care diagnosis of African swine fever virus. The upstream primers of RPA were modified with biotin, and the downstream primers were modified with a C3 spacer and an oligonucleotide tail that can be hybridized to a gold nanoparticle-labeled oligonucleotide detection probe. On the strip, the test line and control line were sprayed with streptavidin and an oligonucleotide control probe. In the presence of positive products, RPA products can form a sandwich structure on the test line. Therefore, two red lines will be displayed both on the test line and control line. When there is no positive product, only the control line is shown in red. Its low reaction temperature (37~42 °C) and short time of amplification and detection (30 min) make ASFV realizing point-of-care diagnosis in limited environment.