2011
DOI: 10.1073/pnas.1019446108
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High-throughput microfluidic single-cell RT-qPCR

Abstract: A long-sought milestone in microfluidics research has been the development of integrated technology for scalable analysis of transcription in single cells. Here we present a fully integrated microfluidic device capable of performing high-precision RT-qPCR measurements of gene expression from hundreds of single cells per run. Our device executes all steps of single-cell processing, including cell capture, cell lysis, reverse transcription, and quantitative PCR. In addition to higher throughput and reduced cost,… Show more

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Cited by 409 publications
(384 citation statements)
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“…Such approaches, which allowed for trapping single cells by actuating integrated valve systems 31 or exploiting physical obstacles as traps 14 , have a drawback in terms of device fabrication. Recently a new approach was presented to successfully isolate single cells within small trapping elements 15,19 .…”
Section: Discussionmentioning
confidence: 99%
“…Such approaches, which allowed for trapping single cells by actuating integrated valve systems 31 or exploiting physical obstacles as traps 14 , have a drawback in terms of device fabrication. Recently a new approach was presented to successfully isolate single cells within small trapping elements 15,19 .…”
Section: Discussionmentioning
confidence: 99%
“…This field has been propelled by remarkable technological advances for efficiently isolating single cells 28, 29, and the reduction of the detection levels of protocols for profiling gene expression 30, 31, histone marks 25, 26, or chromatin accessibility 32, 33 in individual cells. These techniques allow researchers to overcome the limitations of population studies, in which averaging the measurements over a heterogeneous population of cells masks the variability at the epigenetics and transcriptional levels among cells within a culture or tissue 26, 34, 35.…”
Section: Single‐cell Profiling Is Key For Studying Pluripotent State mentioning
confidence: 99%
“…Improved designs for fundamental components include normally closed valves (NCVs) [16 ,17], structured valves [18], cell traps [19], and capacitors and diodes ( Figure 1a) [20,21]; higher-level components that have been introduced include a chamber array [22], a high performance separation column [23 ], a gradient selector (Figure 1b) [23 ], a long term gradient generator [24 ], a 2D spatial gradient controller [25], an agar filled chamber [26] and a mutilaminate mixer [27].…”
Section: Component-level Developmentsmentioning
confidence: 99%