Abstract: Described herein are devices, systems, and methods for trapping single-cell lysates in sealed, microwells capable of printing RNA on glass or capturing RNA on beads. These provide efficient, inexpensive manipulation of RNA from individual cells suitable for single-cell transcriptomics on a large scale. Also described are dual barcode capture beads and merged barcode capture beads.

Abstract: Described herein are devices, systems, and methods for trapping single-cell lysates in sealed, microwells capable of printing RNA on glass or capturing RNA on beads. These provide efficient, inexpensive manipulation of RNA from individual cells suitable for single-cell transcriptomics on a large scale. Also described are dual barcode capture beads and merged barcode capture beads.

Abstract: Systems and methods for associating single cell imaging data with RNA transcriptomics. Single cells are isolated into microwells with a microbead having oligonucleotides conjugated on its surface. Each oligonucleotide includes a cell identifying optical barcode that is unique to that bead and binding sequence for RNA capture after cell lysis. The system is configured for loading single cells into the microarray and for flowing cell lysis buffers and other reagents into the microarray for performing RNA library sample preparation. The system is also configured for lowing optical hybridization probes that are complementary to the cell identifying optical barcodes and optically labeled onto the microwell array and for obtaining images of the microwells in response to the probes. The system and unique cell identifying optical barcodes and complementary optical hybridization probes facilitate a link between phenotypic imaging of cells resident on the microwell array with single cell whole transcriptome sequencing.

Abstract: Many important biological questions demand single-cell transcriptions on a large scale. Hence, new tools are urgently needed for efficient, inexpensive manipulation of RNA from individual cells. Described herein are devices, systems and methods for trapping single-cell lysates in sealed, microwells capable of priming RNA on glass or capturing RNA on beads.

Abstract: Described herein are devices, systems, and methods for trapping single-cell lysates in sealed, microwells capable of printing RNA on glass or capturing RNA on beads. These provide efficient, inexpensive manipulation of RNA from individual cells suitable for single-cell transcriptomics on a large scale. Also described are dual barcode capture beads and merged barcode capture beads.