Add to ORKGTissues and organs are composed of many diverse cell types, making cell-specific gene expression profiling a major challenge. Herein we report that endogenous enzymes, unique to a cell of interest, can be utilized to enable cell-specific metabolic labeling of RNA. We demonstrate that appropriately designed "caged" nucleosides can be rendered active by serving as a substrate for cancer-cell specific enzymes to enable RNA metabolic labeling, only in cancer cells. We envision that the ease and high stringency of our approach will enable expression analysis of tumor cells in complex environments
Optimized and stringent chemical methods to profile nascent RNA expression are still in demand. Here...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...
Tissues and organs are composed of diverse cell types, which poses a major challenge for cell-type-s...
Tissues and organs are composed of diverse cell types, which poses a major challenge for cell-type-s...
The development of new tools for RNA metabolic labeling is critical for analyzing nascent transcript...
Profiling RNA expression in a cell-specific manner continues to be a grand challenge in biochemical ...
Current transcriptome-wide analyses have identified a growing number of regulatory RNA with expressi...
Stringent chemical methods to profile RNA expression within discrete cellular populations remains a ...
RNA molecules can perform a myriad of functions, from the regulation of gene expression to providing...
Profiling RNA expression in a cell-specific manner continues to be a grand challenge in biochemical ...
The transcriptional landscape has revealed itself to be highly complex, wherein RNA serves both codi...
The transcriptional landscape has revealed itself to be highly complex, wherein RNA serves both codi...
Defining the activity of an enzyme in a cell-based system is preferable to in vitro biochemical tech...
The incorporation of modified nucleotides into RNA is a powerful strategy to probe RNA structure and...
Optimized and stringent chemical methods to profile nascent RNA expression are still in demand. Here...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...
Tissues and organs are composed of diverse cell types, which poses a major challenge for cell-type-s...
Tissues and organs are composed of diverse cell types, which poses a major challenge for cell-type-s...
The development of new tools for RNA metabolic labeling is critical for analyzing nascent transcript...
Profiling RNA expression in a cell-specific manner continues to be a grand challenge in biochemical ...
Current transcriptome-wide analyses have identified a growing number of regulatory RNA with expressi...
Stringent chemical methods to profile RNA expression within discrete cellular populations remains a ...
RNA molecules can perform a myriad of functions, from the regulation of gene expression to providing...
Profiling RNA expression in a cell-specific manner continues to be a grand challenge in biochemical ...
The transcriptional landscape has revealed itself to be highly complex, wherein RNA serves both codi...
The transcriptional landscape has revealed itself to be highly complex, wherein RNA serves both codi...
Defining the activity of an enzyme in a cell-based system is preferable to in vitro biochemical tech...
The incorporation of modified nucleotides into RNA is a powerful strategy to probe RNA structure and...
Optimized and stringent chemical methods to profile nascent RNA expression are still in demand. Here...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...
BackgroundCancer cells may undergo metabolic adaptations that support their growth as well as drug r...