Litcius/Paper detail

Highly parallel and efficient single cell mRNA sequencing with paired picoliter chambers

Mingxia Zhang, Yuan Zou, Xing Xu, Xuebing Zhang, Mingxuan Gao, Jia Song, Peifeng Huang, Qin Chen, Zhi Zhu, Wei Lin, Richard N. Zare, Chaoyong Yang

2020Nature Communications82 citationsDOIOpen Access PDF

Abstract

ScRNA-seq has the ability to reveal accurate and precise cell types and states. Existing scRNA-seq platforms utilize bead-based technologies uniquely barcoding individual cells, facing practical challenges for precious samples with limited cell number. Here, we present a scRNA-seq platform, named Paired-seq, with high cells/beads utilization efficiency, cell-free RNAs removal capability, high gene detection ability and low cost. We utilize the differential flow resistance principle to achieve single cell/barcoded bead pairing with high cell utilization efficiency (95%). The integration of valves and pumps enables the complete removal of cell-free RNAs, efficient cell lysis and mRNA capture, achieving highest mRNA detection accuracy (R = 0.955) and comparable sensitivity. Lower reaction volume and higher mRNA capture and barcoding efficiency significantly reduce the cost of reagents and sequencing. The single-cell expression profile of mES and drug treated cells reveal cell heterogeneity, demonstrating the enormous potential of Paired-seq for cell biology, developmental biology and precision medicine.

Topics & Concepts

CellComputational biologyLysisSingle-cell analysisBiologyMessenger RNAGeneCell biologyMolecular biologyGeneticsSingle-cell and spatial transcriptomicsMicrofluidic and Bio-sensing TechnologiesCell Image Analysis Techniques