ID: 1027 High-Throughput, Single Cell Whole Transcriptome Sequencing Analysis of Cancer Cells with the New BD FACSMelody™ Cell Sorter and BD™ Precise assay

Xiaoyang (Alice) Wang; Chip Lomas; Craig Betts; Aaron Walker; Christina Fan; Suzanne Weaver

doi:10.15419/bmrat.v4iS.303

Vol 4 No S (2017): Abstract Proceeding: International conference INNOVATIONS IN CANCER RESEARCH AND REGENERATIVE MEDICINE 2017 / S 102 Poster Abstract

ID: 1027 High-Throughput, Single Cell Whole Transcriptome Sequencing Analysis of Cancer Cells with the New BD FACSMelody™ Cell Sorter and BD™ Precise assay

Xiaoyang (Alice) Wang

Chip Lomas

Craig Betts

Aaron Walker

Christina Fan

Suzanne Weaver

More author's info

Xiaoyang (Alice) Wang
BD Biosciences, San Jose, CA, United States

[email protected]

Chip Lomas
BD Biosciences, San Jose, CA, United States

Craig Betts
BD Genomics, Menlo Park, CA, United States

Aaron Walker
BD Genomics, Menlo Park, CA, United States

Christina Fan
BD Genomics, Menlo Park, CA, United States

Suzanne Weaver
BD Genomics, Menlo Park, CA, United States

Submitted: Aug 31, 2017 | Published: Sep 5, 2017

Vol 4 No S (2017): Abstract Proceeding: International conference INNOVATIONS IN CANCER RESEARCH AND REGENERATIVE MEDICINE 2017 | DOI: 10.15419/bmrat.v4iS.303 | Page No.: S 102

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Wang, X. (Alice), Lomas, C., Betts, C., Walker, A., Fan, C., & Weaver, S. (2017). ID: 1027 High-Throughput, Single Cell Whole Transcriptome Sequencing Analysis of Cancer Cells with the New BD FACSMelody™ Cell Sorter and BD™ Precise assay. Biomedical Research and Therapy, 4(S), S 102. https://doi.org/10.15419/bmrat.v4iS.303

Copyrights: Xiaoyang (Alice) Wang, Chip Lomas, Craig Betts, Aaron Walker, Christina Fan, Suzanne Weaver, 2017. License:

This work is licensed under a Creative Commons Attribution 4.0 International License.

Abstract

Gene expression studies performed on bulk samples might obscure the understanding of complex samples. Gene expression analyses performed on single cells, however, can offer a powerful method to resolve sample heterogeneity and reveal hidden biology. Optimal sample preparation is critical to obtain high quality gene expression data from single cells.
Historically, single cells or small numbers of cells were isolated and prepared by limiting dilutions, laser capture microdissection, or microfluidics technologies, or fluorescence-activated cell sorting (FACS). FACS sorting enables highthroughput processing of a heterogeneous mixture of cells and ensures the delivery of single cells or a small number ofcells into a chosen receptacle to meet the selection criteria at a purity level that is unmatched by other approaches.Furthermore, by FACS, the single cell selection criteria can be based on surface marker expression, cell size, and granularity(represented by scatter). Sorted cells can be used for any downstream application including next generation sequencing(NGS).
In this study, the new, easy-to-use BD FACSMelody™ sorter was applied to sort individual cancer cells. Jurkat cells (a Tleukemia cell line), and T47D cells (a breast cancer cell line) were mixed, stained, analyzed, and sorted on a BD FACSMelody system. The individual cell’s whole transcriptome was interrogated using BD™ Precise Single Cell WTA (whole transcriptome amplification) Assay. Principal component analysis was applied to cluster the sorted Jurkat and T47D-cell populations.

Keywords: Cancer Cancer cells cell sorter next generation sequencing (NGS) Single cell