Reverse genetic screens have driven gene annotation and target discovery in model organisms. However, many disease‐relevant genotypes and phenotypes cannot be studied in lower organisms. It is therefore essential to overcome technical hurdles associated with large‐scale reverse genetics in human cells. Here, we establish a reverse genetic approach based on highly robust and sensitive multiplexed RNA sequencing of mutant human cells. We conduct 10 parallel screens using a collection of engineered haploid isogenic cell lines with knockouts covering tyrosine kinases and identify known and unexpected effects on signaling pathways. Our study provides proof of concept for a scalable approach to link genotype to phenotype in human cells, which has...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2017."June 2017." Cata...
International audienceReverse genetics consists in the modification of the activity of a target gene...
Cancer genome sequencing has identified dozens of mutations with a putative role in lymphomagenesis ...
Reverse genetic screens have driven gene annotation and target discovery in model organisms. However...
More than a decade after the completion of the human genome project, the function of a large number ...
Insertional mutagenesis in a haploid background can disrupt gene function. We extend our earlier wor...
Knockout collections are invaluable tools for studying model organisms such as yeast. However, there...
Although genes are unequivocally important for the development of both common and rare human disease...
This dataset contains data files and analysis code associated with manuscript entitled "Parallel rev...
In model organisms, classical genetic screening via random mutagenesis provides key insights into th...
By virtue of their accumulated genetic alterations, tumor cells may acquire vulnerabilities that cre...
International audienceAbstract Inherited or acquired mutations can lead to pathological outcomes. Ho...
Biological processes are organized in hierarchical interactions of molecules, cells, tissues, and or...
Summary: Human pluripotent stem cells (hPSCs) generate a variety of disease-relevant cells that can ...
In model organisms, classical genetic screening via random mutagenesis provides key insights into th...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2017."June 2017." Cata...
International audienceReverse genetics consists in the modification of the activity of a target gene...
Cancer genome sequencing has identified dozens of mutations with a putative role in lymphomagenesis ...
Reverse genetic screens have driven gene annotation and target discovery in model organisms. However...
More than a decade after the completion of the human genome project, the function of a large number ...
Insertional mutagenesis in a haploid background can disrupt gene function. We extend our earlier wor...
Knockout collections are invaluable tools for studying model organisms such as yeast. However, there...
Although genes are unequivocally important for the development of both common and rare human disease...
This dataset contains data files and analysis code associated with manuscript entitled "Parallel rev...
In model organisms, classical genetic screening via random mutagenesis provides key insights into th...
By virtue of their accumulated genetic alterations, tumor cells may acquire vulnerabilities that cre...
International audienceAbstract Inherited or acquired mutations can lead to pathological outcomes. Ho...
Biological processes are organized in hierarchical interactions of molecules, cells, tissues, and or...
Summary: Human pluripotent stem cells (hPSCs) generate a variety of disease-relevant cells that can ...
In model organisms, classical genetic screening via random mutagenesis provides key insights into th...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Biology, 2017."June 2017." Cata...
International audienceReverse genetics consists in the modification of the activity of a target gene...
Cancer genome sequencing has identified dozens of mutations with a putative role in lymphomagenesis ...