ABSTRACT
The SARS-CoV-2 BA.2.86 variant, also known as Pirola, has acquired over 30 amino acid changes in the Spike protein, evolving into >150 sublineages within ten months of its emergence. Among these, the JN.1, has been rapidly increasing globally becoming the most prevalent variant. To facilitate the identification of BA.2.86 sublineages, we designed the PiroMet-1 and PiroMet-2 assays in silico and validated them using BA.2.86 viral RNA and clinical samples to ascertain analytical specificity and sensitivity. Both assays resulted very specific with limit of detection of about 1-2 RNA copies/µL. The assays were then applied in a digital RT-PCR format to wastewater samples, combined with the OmMet assay (which identifies Omicron sublineages except BA.2.86 and its descendants) and the JRC-UCE.2 assay (which can universally recognize all SARS-CoV-2 variants). When used together with the OmMet and JRC-CoV-UCE.2 assays, the PiroMet assays accurately quantified BA.2.86 sublineages in wastewater samples. Our findings support the integration of these assays into routine SARS-CoV-2 wastewater surveillance as a timely and cost-effective complement to sequencing for monitoring the prevalence and spread of BA.2.86 sublineages within communities.