Chemistries for Patterning Robust DNA MicroBarcodes Enable Multiplex Assays of Cytoplasm Proteins from Single Cancer Cells
Young Shik Shin, Habib Ahmad, Qihui Shi, Hyungjun Kim, Tod A. Pascal, Rong Fan, William A. Goddard III, James R. Heath
2010ChemPhysChem, 11(14), 3063-306952cited
Abstract
The optimization of chemistries to enable the patterning of miniaturized DNA barcodes using microfluidics flow channels is described (see picture). Experiment and theory reveal that solvent mixtures in which counterions are strongly associated with the negatively charged DNA oligomers may be harnessed to produce high quality, high density DNA microarray patterns over a large area.
Group Members
Cite this publication
Shin, Y. S., Ahmad, H., Shi, Q., Kim, H., Pascal, T. A., Fan, R., III, W. A. G., & Heath, J. R. (2010). Chemistries for Patterning Robust DNA MicroBarcodes Enable Multiplex Assays of Cytoplasm Proteins from Single Cancer Cells. *ChemPhysChem*, *11*(14), 3063-3069. https://doi.org/10.1002/cphc.201000528