Add to ORKGMethods to quantify cellular-level phenotypic differences between genetic groups are a key tool in genomics research. In disease processes such as cancer, phenotypic changes at the cellular level frequently manifest in the modification of cell population profiles. These changes are hard to detect due the ambiguity in identifying distinct cell phenotypes within a population. We present a methodology which enables the detection of such changes by generating a phenotypic signature of cell populations in a data-derived feature-space. Further, this signature is used to estimate a model for the redistribution of phenotypes that was induced by the genetic change. Results are presented on an experiment involving deletion of a tumor-suppressor gene ...
Single-cell expression analysis is an effective tool for studying the dynamics of cell population pr...
<p>From gene expression to protein abundance, biological measurements have traditionally been taken ...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
High Content Screening (HCS) platforms allow screening living cells under a wide range of experiment...
International audienceRelating genotypes with phenotypes is important to understand diseases like ca...
Phenotypic image analysis is the task of recognizing variations in cell properties using microscopic...
Novel technologies, such as the 10k Affymetrix genotyping array, allow scoring of genetic polymorph...
A major component of cancer’s complexity lies in its heterogeneity. Because cancer heterogeneity can...
Bulk tissue samples examined by gene expression studies are usually heterogeneous. The data gained f...
The heterogeneity of breast cancer plays a major role in drug response and resistance and has been e...
The datasets analysed in the manuscript "Inferring phenotypes of single cells based on the expressio...
AbstractThe heterogeneity of breast cancer plays a major role in drug response and resistance and ha...
Correlative analysis of molecular markers with phenotypic signatures is the simplest model for hypot...
<div><p>Any single-cell-resolved measurement generates a population distribution of phenotypes, char...
Any single-cell-resolved measurement generates a population distribution of phenotypes, characterize...
Single-cell expression analysis is an effective tool for studying the dynamics of cell population pr...
<p>From gene expression to protein abundance, biological measurements have traditionally been taken ...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...
High Content Screening (HCS) platforms allow screening living cells under a wide range of experiment...
International audienceRelating genotypes with phenotypes is important to understand diseases like ca...
Phenotypic image analysis is the task of recognizing variations in cell properties using microscopic...
Novel technologies, such as the 10k Affymetrix genotyping array, allow scoring of genetic polymorph...
A major component of cancer’s complexity lies in its heterogeneity. Because cancer heterogeneity can...
Bulk tissue samples examined by gene expression studies are usually heterogeneous. The data gained f...
The heterogeneity of breast cancer plays a major role in drug response and resistance and has been e...
The datasets analysed in the manuscript "Inferring phenotypes of single cells based on the expressio...
AbstractThe heterogeneity of breast cancer plays a major role in drug response and resistance and ha...
Correlative analysis of molecular markers with phenotypic signatures is the simplest model for hypot...
<div><p>Any single-cell-resolved measurement generates a population distribution of phenotypes, char...
Any single-cell-resolved measurement generates a population distribution of phenotypes, characterize...
Single-cell expression analysis is an effective tool for studying the dynamics of cell population pr...
<p>From gene expression to protein abundance, biological measurements have traditionally been taken ...
Cancer therapy exerts a strong selection pressure that shapes tumor evolution, yet our knowledge of ...