| Open Document File Size: 4,55 MBShare Result on Facebook
City New York / / Company United Chemical Technologies / Pearson / Dow Corning / CVs / Creative Commons / / Country United States / / Currency USD / / / Event FDA Phase / / Facility Stanford Microfluidics Foundry / Columbia University Medical Center / / IndustryTerm bead capture device / microfluidic processing result / microfluidic device / biological and biomedical applications / ethanol solution / high-resolution imaging / fluorescence imaging data / enzymatic processing steps / printing / microfluidic systems / cell device / pooled library preparation on-chip / microwell array flow cell device / silicone rubber / downstream processing / microwell array device / related protocols / chemical stimulus / on-chip imaging / agarose hydrogel device / throughput technology / oil / multi-step enzymatic processing / imaging / reported technology / on-chip / library preparation protocol / microwell device / addressable reagent flow systems / capture site / / MedicalCondition human cancer / MCF10a human breast cancer / human glioma cells / / Organization Department of Systems Biology / Columbia University Medical Center / Department of Biochemistry & Molecular Biophysics / / Person Dana Pe / Gene Body Percentile / / Position author / / Product acetic acid / U87 / / ProvinceOrState New York / Washington / / Technology library preparation protocol / high-throughput technology / flow-based technologies / hybridization / gene expression / closely related protocols / DNA sequencing / recently reported technology / transcriptomics / http / lithography / pooled library preparation on-chip / microfluidics / photolithography / / URL http /
SocialTag |
Scalable microfluidics for single-cell RNA printing and sequencing