One-pot RPA-Cas12a assay for instant and visual detection of Burkholderia pseudomallei

Burkholderia pseudomallei is the causative agent of melioidosis, a potentially life-threatening infectious disease, and poses public health risks in endemic areas. Due to the high mortality, intrinsic antibiotic resistance, and atypical manifestations, establishing a rapid, accurate, and sensitive identification of B. pseudomallei enables earlier diagnosis, proper treatments, and better outcomes of melioidosis. Herein, we present a One-Pot CRISPR-integrated assay for Instant and Visual Detection (termed OPC-IVD) of B. pseudomallei. The integration of recombinase polymerase amplification and CRISPR-Cas12a recognition-activated trans-cleavage, achieved a true all-in-one single-tube reaction system, initiating the amplification and cleavage simultaneously, which realized a facile sample-to-answer assay. This approach could be performed with simplified DNA extraction and completed around 30 min by holding the reaction tube in the hand. The detection limit of our OPC-IVD was determined to be 2.19 copy/uL of plasmid DNA, 12.5 CFU/mL of B. pseudomallei, and 61.5 CFU/mL of bacteria in spiked blood samples, respectively. Furthermore, the introduction of internal amplification control effectively reduced the occurrence of false negatives, which was incorporated in the reaction system, and amplified simultaneously with the target and read by naked eyes. The assay exhibited 100% accuracy when evaluated in clinical isolates and samples. The streamlined workflow of our OPC-IVD of B. pseudomallei enables a field-deployable, instrument-free, and ultra-fast approach that can be utilized by non-expert personnel in the field of molecular diagnosis of melioidosis especially in under-resourced setting.