Abstract
With Wolbachia-based arbovirus control programs being scaled and operationalised around the world, cost effective and reliable detection of Wolbachia in field samples and laboratory stocks is essential for quality control. Here we validate a modified loop-mediated isothermal amplification (LAMP) assay for routine scoring of Wolbachia in mosquitoes from laboratory cultures and the field, applicable to any setting. We show that this assay is a rapid and robust method for highly sensitive and specific detection of wAlbB Wolbachia infection within Aedes aegypti under a variety of conditions. We test the quantitative nature of the assay by evaluating pooled mixtures of Wolbachia-infected and uninfected mosquitoes and show that it is capable of estimating infection frequencies, potentially circumventing the need to perform large-scale individual analysis for wAlbB infection status in the course of field monitoring. These results indicate that LAMP assays are useful for routine screening particularly under field conditions away from laboratory facilities.
Importance Releases of mosquitoes infected with strains of Wolbachia bacteria are expanding around the world because this bacterium that lives inside cells provides an effective tool to suppress mosquito populations and the ability of mosquitoes to transmit viruses. The success of the release programs relies on rapid and effective means of detecting Wolbachia and scoring their frequencies in mosquitoes for quality control and for assessing the success of releases. Here we test a “LAMP” (Loop-mediated isothermal amplification) assay for robust detection of Wolbachia infections in laboratory and field mosquito populations. We show that the assay can detect the bacteria when present at a low density in samples, and with a high degree of reproducibility. The assay uses a simple protocol which requires minimal training. It can readily detect Wolbachia in mosquitoes obtained from traps that are routinely used in field surveys. The assay should be cost effective in a variety of settings.