Add to ORKGNew insights on cellular heterogeneity in the last decade provoke the development of a variety of single cell omics tools at a lightning pace. The resultant high-dimensional single cell data generated by these tools require new theoretical approaches and analytical algorithms for effective visualization and interpretation. In this review, we briefly survey the state-of-the-art single cell proteomic tools with a particular focus on data acquisition and quantification, followed by an elaboration of a number of statistical and computational approaches developed to date for dissecting the high-dimensional single cell data. The underlying assumptions, unique features, and limitations of the analytical methods with the designated biological quest...
Single-cell sequencing methods provide the highest resolution insight into cellular heterogeneity. O...
Single-cell functional proteomics assays can connect genomic information to biological function thr...
Single cell high throughput genomic measurements are revolutionizing the fields of biology and medic...
New insights on cellular heterogeneity in the last decade provoke the development of a variety of si...
Advances in single-cell proteomics technologies have resulted in high-dimensional datasets comprisin...
International audienceDuring the past decade, the number of novel technologies to interrogate biolog...
Traditional technologies to investigate system biology are limited by the detection of parameters re...
Single-cell analysis is a rapidly evolving approach to characterize genome-scale molecular informati...
Single-cell technologies have emerged as powerful tools to analyze complex tissues at the single-cel...
Cellular heterogeneity arising from stochastic expression of genes, proteins, and metabolites is a f...
Unprecedented access to the biology of single cells is now feasible, enabled by recent technological...
The genetic, functional or compositional heterogeneity of healthy and diseased tissues presents majo...
Single-cell technologies are revolutionizing biology but are today mainly limited to imaging and dee...
Single-cell sequencing methods provide the highest resolution insight into cellular heterogeneity. O...
Single-cell functional proteomics assays can connect genomic information to biological function thr...
Single cell high throughput genomic measurements are revolutionizing the fields of biology and medic...
New insights on cellular heterogeneity in the last decade provoke the development of a variety of si...
Advances in single-cell proteomics technologies have resulted in high-dimensional datasets comprisin...
International audienceDuring the past decade, the number of novel technologies to interrogate biolog...
Traditional technologies to investigate system biology are limited by the detection of parameters re...
Single-cell analysis is a rapidly evolving approach to characterize genome-scale molecular informati...
Single-cell technologies have emerged as powerful tools to analyze complex tissues at the single-cel...
Cellular heterogeneity arising from stochastic expression of genes, proteins, and metabolites is a f...
Unprecedented access to the biology of single cells is now feasible, enabled by recent technological...
The genetic, functional or compositional heterogeneity of healthy and diseased tissues presents majo...
Single-cell technologies are revolutionizing biology but are today mainly limited to imaging and dee...
Single-cell sequencing methods provide the highest resolution insight into cellular heterogeneity. O...
Single-cell functional proteomics assays can connect genomic information to biological function thr...
Single cell high throughput genomic measurements are revolutionizing the fields of biology and medic...