Image-based screening is used to measure a variety of phenotypes in cells and whole organisms. Combined with perturbations such as RNA interference, small molecules, and mutations, such screens are a powerful method for gaining systematic insights into biological processes. Screens have been applied to study diverse processes, such as protein-localization changes, cancer cell vulnerabilities, and complex organismal phenotypes. Recently, advances in imaging and image-analysis methodologies have accelerated large-scale perturbation screens. Here, we describe the state of the art for image-based screening experiments and delineate experimental approaches and image-analysis approaches as well as discussing challenges and future directions, incl...
A dramatic shift has occurred in how biologists use microscopy images. Whether experiments are small...
Computational phenotyping is an emergent set of technologies for systematically studying the role of...
High content image-based screening assays utilise cell based models to extract and quantify morpholo...
Image-based screening is used to measure a variety of phenotypes in cells and whole organisms. Combi...
Imaged-based screening has been developing extremely quickly in the past 10 years. Academic institut...
High-content imaging using automated microscopy and computer vision allows multivariate profiling of...
Very recent developments in instrumentation and image analysis have made microscopy applicable to hi...
Biological processes are organized in hierarchical interactions of molecules, cells, tissues, and or...
High-content screening (HCS) uses computational analysis on large collections of unlabeled biologica...
CRISPR (clustered regularly interspaced short palindromic repeats)-based gene inactivation provides ...
High-content screening (HCS) combines automated microscopy with high throughput technologies for ass...
CRISPR (clustered regularly interspaced short palindromic repeats)-based gene inactivation provides ...
Image-based high-content screens (HCS) hold tremendous promise for cell-based phenotypic screens. C...
Advanced microscopy and the corresponding image analysis have been developed in recent years into a ...
Pooled CRISPR screens are emerging as a powerful tool to dissect regulatory networks, by assessing h...
A dramatic shift has occurred in how biologists use microscopy images. Whether experiments are small...
Computational phenotyping is an emergent set of technologies for systematically studying the role of...
High content image-based screening assays utilise cell based models to extract and quantify morpholo...
Image-based screening is used to measure a variety of phenotypes in cells and whole organisms. Combi...
Imaged-based screening has been developing extremely quickly in the past 10 years. Academic institut...
High-content imaging using automated microscopy and computer vision allows multivariate profiling of...
Very recent developments in instrumentation and image analysis have made microscopy applicable to hi...
Biological processes are organized in hierarchical interactions of molecules, cells, tissues, and or...
High-content screening (HCS) uses computational analysis on large collections of unlabeled biologica...
CRISPR (clustered regularly interspaced short palindromic repeats)-based gene inactivation provides ...
High-content screening (HCS) combines automated microscopy with high throughput technologies for ass...
CRISPR (clustered regularly interspaced short palindromic repeats)-based gene inactivation provides ...
Image-based high-content screens (HCS) hold tremendous promise for cell-based phenotypic screens. C...
Advanced microscopy and the corresponding image analysis have been developed in recent years into a ...
Pooled CRISPR screens are emerging as a powerful tool to dissect regulatory networks, by assessing h...
A dramatic shift has occurred in how biologists use microscopy images. Whether experiments are small...
Computational phenotyping is an emergent set of technologies for systematically studying the role of...
High content image-based screening assays utilise cell based models to extract and quantify morpholo...