Microfluidic single-cell mRNA isolation and analysis
JS Marcus, WF Anderson, SR Quake - Analytical chemistry, 2006 - ACS Publications
JS Marcus, WF Anderson, SR Quake
Analytical chemistry, 2006•ACS PublicationsSingle-cell gene expression analysis holds great promise for studying diverse biological
systems, but methodology to process these precious samples in a reproducible, quantitative,
and parallel fashion remains challenging. Here, we utilize microfluidics to isolate picogram
and subpicogram mRNA templates, as well as to synthesize cDNA from these templates. We
demonstrate single-cell mRNA isolation and cDNA synthesis, provide quantitative
calibrations for each step in the process, and measure gene expression in individual cells …
systems, but methodology to process these precious samples in a reproducible, quantitative,
and parallel fashion remains challenging. Here, we utilize microfluidics to isolate picogram
and subpicogram mRNA templates, as well as to synthesize cDNA from these templates. We
demonstrate single-cell mRNA isolation and cDNA synthesis, provide quantitative
calibrations for each step in the process, and measure gene expression in individual cells …
Single-cell gene expression analysis holds great promise for studying diverse biological systems, but methodology to process these precious samples in a reproducible, quantitative, and parallel fashion remains challenging. Here, we utilize microfluidics to isolate picogram and subpicogram mRNA templates, as well as to synthesize cDNA from these templates. We demonstrate single-cell mRNA isolation and cDNA synthesis, provide quantitative calibrations for each step in the process, and measure gene expression in individual cells. The techniques presented here form the foundation for highly parallel single-cell gene expression studies.
ACS Publications