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Fluidic Logic Used in a Systems Approach to Enable Integrated Single-Cell Functional Analysis.

Authors :
Ramalingam N
Fowler B
Szpankowski L
Leyrat AA
Hukari K
Maung MT
Yorza W
Norris M
Cesar C
Shuga J
Gonzales ML
Sanada CD
Wang X
Yeung R
Hwang W
Axsom J
Devaraju NS
Angeles ND
Greene C
Zhou MF
Ong ES
Poh CC
Lam M
Choi H
Htoo Z
Lee L
Chin CS
Shen ZW
Lu CT
Holcomb I
Ooi A
Stolarczyk C
Shuga T
Livak KJ
Larsen C
Unger M
West JA
Source :
Frontiers in bioengineering and biotechnology [Front Bioeng Biotechnol] 2016 Sep 21; Vol. 4, pp. 70. Date of Electronic Publication: 2016 Sep 21 (Print Publication: 2016).
Publication Year :
2016

Abstract

The study of single cells has evolved over the past several years to include expression and genomic analysis of an increasing number of single cells. Several studies have demonstrated wide spread variation and heterogeneity within cell populations of similar phenotype. While the characterization of these populations will likely set the foundation for our understanding of genomic- and expression-based diversity, it will not be able to link the functional differences of a single cell to its underlying genomic structure and activity. Currently, it is difficult to perturb single cells in a controlled environment, monitor and measure the response due to perturbation, and link these response measurements to downstream genomic and transcriptomic analysis. In order to address this challenge, we developed a platform to integrate and miniaturize many of the experimental steps required to study single-cell function. The heart of this platform is an elastomer-based integrated fluidic circuit that uses fluidic logic to select and sequester specific single cells based on a phenotypic trait for downstream experimentation. Experiments with sequestered cells that have been performed include on-chip culture, exposure to various stimulants, and post-exposure image-based response analysis, followed by preparation of the mRNA transcriptome for massively parallel sequencing analysis. The flexible system embodies experimental design and execution that enable routine functional studies of single cells.

Details

Language :
English
ISSN :
2296-4185
Volume :
4
Database :
MEDLINE
Journal :
Frontiers in bioengineering and biotechnology
Publication Type :
Academic Journal
Accession number :
27709111
Full Text :
https://doi.org/10.3389/fbioe.2016.00070