Abstract 3540: A complete solution for high throughput single cell targeted multiomic DNA and RNA sequencing for cancer research

Abstract: Recent advancements in single cell analysis technologies are now able to provide insights into genomic DNA content, RNA expression and protein surface markers. In bulk assays, the effect of genetic variation on gene expression would be masked by the heterogeneity inherent in tumor cells. Additionally, for cancer immunotherapy studies that rely on gene editing, single cell resolution is necessary to minimize possible off target effects. However, the ability to simultaneously interrogate multiple intracellular a… Show more

“…In addition, multi-omics capabilities of the current platform have been shown, possibly allowing for further characterization of MRD clones beyond just the DNA mutational signature. 23 Finally, the recent ELN MRD Working Party recommendations suggest that at least 10 000 cells, if not upward to 500 000 cells, are needed to accurately detect MRD lower than the 0.01% threshold. 4 Improvements in microfluidics technology have allowed for increased throughput to .50 000 cells, 24 theoretically decreasing the limit of detection into the range of most error-corrected NGS and digital droplet PCR technologies.…”

Single-cell mutational profiling enhances the clinical evaluation of AML MRD

“…In addition, multi-omics capabilities of the current platform have been shown, possibly allowing for further characterization of MRD clones beyond just the DNA mutational signature. 23 Finally, the recent ELN MRD Working Party recommendations suggest that at least 10 000 cells, if not upward to 500 000 cells, are needed to accurately detect MRD lower than the 0.01% threshold. 4 Improvements in microfluidics technology have allowed for increased throughput to .50 000 cells, 24 theoretically decreasing the limit of detection into the range of most error-corrected NGS and digital droplet PCR technologies.…”

Single-cell mutational profiling enhances the clinical evaluation of AML MRD