Multiplex Surveillance Kit Using Sweetened Solid Support to Detect Arboviruses Isothermally in Mosquito Saliva from the Field.
Ozlem YarenJacquelyn McCarterAndrew R MorrisKevin M BradleyNilesh B KaralkarDaniel C McLendonDongmin KimBradley H EastmondNathan D Burkett-CadenaBarry W AltoSteven A BennerPublished in: Analytical chemistry (2023)
Recently reported "displaceable probe" loop amplification (DP-LAMP) architecture has shown to amplify viral RNA from SARS-CoV-2 with little sample processing. The architecture allows signals indicating the presence of target nucleic acids to be spatially separated, and independent in sequence, from the complicated concatemer that LAMP processes create as part of their amplification process. This makes DP-LAMP an attractive molecular strategy to integrate with trap and sampling innovations to detect RNA from arboviruses carried by mosquitoes in the field. These innovations include (a) development of organically produced carbon dioxide with ethylene carbonate as a bait deployable in mosquito trap, avoiding the need for dry ice, propane tanks, or inorganic carbonates and (b) a process that induces mosquitoes to lay virus-infected saliva on a quaternary ammonium-functionalized paper (Q-paper) matrix, where (c) the matrix (i) inactivates the deposited viruses, (ii) releases their RNA, and (iii) captures viral RNA in a form that keeps it stable for days at ambient temperatures. We report this integration here, with a surprisingly simple workflow. DP-LAMP with a reverse transcriptase was found to amplify arboviral RNA directly from Q-paper, without requiring a separate elution step. This capture-amplification-detection architecture can be multiplexed, with the entire system integrated into a device that can support a campaign of surveillance, in the wild outdoors, that reports the prevalence of arboviruses from field-captured mosquitoes.
Keyphrases
- nucleic acid
- loop mediated isothermal amplification
- aedes aegypti
- sars cov
- dengue virus
- carbon dioxide
- zika virus
- label free
- quantum dots
- air pollution
- sensitive detection
- risk factors
- emergency department
- single cell
- high resolution
- transcription factor
- ionic liquid
- high throughput
- real time pcr
- molecularly imprinted
- coronavirus disease