Multiomic Droplet-Based Assay for Ultralow Input Samples.

The extraction and separation of cellular compounds are crucial steps in numerous biological protocols, particularly in multiomics studies, where several cellular modalities are examined simultaneously. While magnetic particle extraction is commonly used, it may not be applicable for ultralow input samples. Microfluidics has made possible the analysis of rare or low-materiality samples such as circulating tumor cells or single cells through miniaturization of numerous protocols. In this study, a microfluidics workflow for separating different cellular modalities from ultralow input samples is presented. This approach is based on magnetic tweezers technology, allowing the extraction and resuspension of magnetic particles between consecutive nanoliter droplets to perform multistep assays on small volumes. The ability to separate and recover mRNA and gDNA in samples containing less than 10 cells is demonstrated, achieving separation efficiency comparable to the one obtained with conventional pipetting but with a significantly lower amount of starting material, typically 1-2 orders of magnitude less.