David DeTomaso scite author profile

We present Vision, a tool for annotating the sources of variation in single cell RNA-seq data in an automated and scalable manner. Vision operates directly on the manifold of cell-cell similarity and employs a flexible annotation approach that can operate either with or without preconceived stratification of the cells into groups or along a continuum. We demonstrate the utility of Vision in several case studies and show that it can derive important sources of cellular variation and link them to experimental meta-data even with relatively homogeneous sets of cells. Vision produces an interactive, low latency and feature rich web-based report that can be easily shared among researchers, thus facilitating data dissemination and collaboration.

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Performance Assessment and Selection of Normalization Procedures for Single-Cell RNA-Seq

Cole

et al. 2019

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Hotspot identifies informative gene modules across modalities of single-cell genomics

2021

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Hotspot identifies informative gene modules across modalities of single-cell genomicsGraphical abstract Highlights d Hotspot is a graph-based procedure to identify informative genes and gene modules d Information from similar cells is shared to improve sensitivity in sparse data d The method can be applied downstream of most dimensionality reduction procedures d It can also be used to detect gene modules in multimodal settings (RNA + x)

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FastProject: a tool for low-dimensional analysis of single-cell RNA-Seq data

DeTomaso

Yosef

2016

BMC Bioinformatics

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Background: A key challenge in the emerging field of single-cell RNA-Seq is to characterize phenotypic diversity between cells and visualize this information in an informative manner. A common technique when dealing with high-dimensional data is to project the data to 2 or 3 dimensions for visualization. However, there are a variety of methods to achieve this result and once projected, it can be difficult to ascribe biological significance to the observed features. Additionally, when analyzing single-cell data, the relationship between cells can be obscured by technical confounders such as variable gene capture rates. Results: To aid in the analysis and interpretation of single-cell RNA-Seq data, we have developed FastProject, a software tool which analyzes a gene expression matrix and produces a dynamic output report in which two-dimensional projections of the data can be explored. Annotated gene sets (referred to as gene 'signatures') are incorporated so that features in the projections can be understood in relation to the biological processes they might represent. FastProject provides a novel method of scoring each cell against a gene signature so as to minimize the effect of missed transcripts as well as a method to rank signature-projection pairings so that meaningful associations can be quickly identified. Additionally, FastProject is written with a modular architecture and designed to serve as a platform for incorporating and comparing new projection methods and gene selection algorithms. Conclusions:Here we present FastProject, a software package for two-dimensional visualization of single cell data, which utilizes a plethora of projection methods and provides a way to systematically investigate the biological relevance of these low dimensional representations by incorporating domain knowledge.

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David DeTomaso

Metabolic modeling of single Th17 cells reveals regulators of autoimmunity

Functional interpretation of single cell similarity maps

Performance Assessment and Selection of Normalization Procedures for Single-Cell RNA-Seq

Hotspot identifies informative gene modules across modalities of single-cell genomics

FastProject: a tool for low-dimensional analysis of single-cell RNA-Seq data

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