Add to ORKGABSTRACT: Electrokinetic preconcentration coupled with mobility shift assays can give rise to very high detection sensitivities. We describe a microfluidic device that utilizes this principle to detect cellular kinase activities by simultaneously concentrating and separating substrate peptides with different phosphorylation states. This platform is capable of reliably measuring kinase activities of single adherent cells cultured in nanoliter volume microwells. We also describe a novel method utilizing spacer peptides that significantly increase separation resolution while maintaining high concentration factors in this device. Thus, multiplexed kinase measurements can be implemented with single cell sensitivity. Multiple kinase activity prof...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Direct measurement of proteins in single cells is necessary in the study of human biology and diseas...
Protein kinases catalyze protein phosphorylation and thereby control the flow of information through...
Electrokinetic preconcentration coupled with mobility shift assays can give rise to very high detect...
In this paper, we reported a simple, disposable PDMS micro/nanofluidic preconcentration chip for in ...
Protein kinases control cellular functions by regulating protein phosphorylation. Monitoring protein...
Single-cell analysis provides information critical to understanding key disease processes that are c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
In this work, development of a microfluidic device to perform high-throughput single cell analysis i...
(Figure Presented) Turn off the light! A kinase assay system employs fluorescent peptides and a phos...
BACKGROUND: Mitogen activated protein kinases (MAPK) play an essential role in integrating extra-cel...
We report a simple method for analyzing sequential phosphorylation by protein kinases using fluoresc...
Here, we present the full integration of a proximity ligation assay (PLA) on a microfluidic chip for...
Here, we present the full integration of a proximity ligation assay (PLA) on a microfluidic chip for...
SummaryIncreasing evidence has shown that population dynamics are qualitatively different from singl...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Direct measurement of proteins in single cells is necessary in the study of human biology and diseas...
Protein kinases catalyze protein phosphorylation and thereby control the flow of information through...
Electrokinetic preconcentration coupled with mobility shift assays can give rise to very high detect...
In this paper, we reported a simple, disposable PDMS micro/nanofluidic preconcentration chip for in ...
Protein kinases control cellular functions by regulating protein phosphorylation. Monitoring protein...
Single-cell analysis provides information critical to understanding key disease processes that are c...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
In this work, development of a microfluidic device to perform high-throughput single cell analysis i...
(Figure Presented) Turn off the light! A kinase assay system employs fluorescent peptides and a phos...
BACKGROUND: Mitogen activated protein kinases (MAPK) play an essential role in integrating extra-cel...
We report a simple method for analyzing sequential phosphorylation by protein kinases using fluoresc...
Here, we present the full integration of a proximity ligation assay (PLA) on a microfluidic chip for...
Here, we present the full integration of a proximity ligation assay (PLA) on a microfluidic chip for...
SummaryIncreasing evidence has shown that population dynamics are qualitatively different from singl...
Recent research on cellular responses is shifting from static observations recorded under static sti...
Direct measurement of proteins in single cells is necessary in the study of human biology and diseas...
Protein kinases catalyze protein phosphorylation and thereby control the flow of information through...