Multimodal single-cell sequencing technologies provide unprecedented information on cellular heterogeneity from multiple layers of genomic readouts. However, joint analysis of two modalities without properly handling the noise often leads to overfitting of one modality by the other and worse clustering results than vanilla single-modality analysis. How to efficiently utilize the extra information from single cell multi-omics to delineate cell states and identify meaningful signal remains as a significant computational challenge. In this work, we propose a deep learning framework, named SAILERX, for efficient, robust, and flexible analysis of multi-modal single-cell data. SAILERX consists of a variational autoencoder with invariant represent...
Transcriptomics and proteomics-based expression profiling technologies have become increasingly popu...
The advent of single-cell multi-omics sequencing technology makes it possible for researchers to lev...
Recent advances in multimodal single-cell technologies have enabled simultaneous acquisitions of mul...
MOTIVATION: Recent advances in multimodal single-cell omics technologies enable multiple modalities ...
Single cell transcriptomic technologies which capture high dimensional measurements of gene expressi...
The explosion of high-throughput sequencing technologies in the past decade has enabled the measurem...
Single-cell multimodal omics sequencing is a promising protocol that allows us to simultaneously mea...
Traditional bulk sequencing methods are limited to measuring the average signal in a group of cells,...
Single-cell multi-modal omics promises to open new doors in bioinformatics by measuring different as...
Feature identification and manual inspection is currently still an integral part of biological data ...
Multimodal single-cell omics technologies enable multiple molecular programs to be simultaneously pr...
Joint profiling of the transcriptome and chromatin accessibility in the same cell can provide direct...
MotivationSingle-cell sequencing assay for transposase-accessible chromatin (scATAC-seq) provides ne...
Many single-cell sequencing technologies are now available, but it is still difficult to apply multi...
Background: Biological processes are based on complex networks of cells and molecules. Single cell m...
Transcriptomics and proteomics-based expression profiling technologies have become increasingly popu...
The advent of single-cell multi-omics sequencing technology makes it possible for researchers to lev...
Recent advances in multimodal single-cell technologies have enabled simultaneous acquisitions of mul...
MOTIVATION: Recent advances in multimodal single-cell omics technologies enable multiple modalities ...
Single cell transcriptomic technologies which capture high dimensional measurements of gene expressi...
The explosion of high-throughput sequencing technologies in the past decade has enabled the measurem...
Single-cell multimodal omics sequencing is a promising protocol that allows us to simultaneously mea...
Traditional bulk sequencing methods are limited to measuring the average signal in a group of cells,...
Single-cell multi-modal omics promises to open new doors in bioinformatics by measuring different as...
Feature identification and manual inspection is currently still an integral part of biological data ...
Multimodal single-cell omics technologies enable multiple molecular programs to be simultaneously pr...
Joint profiling of the transcriptome and chromatin accessibility in the same cell can provide direct...
MotivationSingle-cell sequencing assay for transposase-accessible chromatin (scATAC-seq) provides ne...
Many single-cell sequencing technologies are now available, but it is still difficult to apply multi...
Background: Biological processes are based on complex networks of cells and molecules. Single cell m...
Transcriptomics and proteomics-based expression profiling technologies have become increasingly popu...
The advent of single-cell multi-omics sequencing technology makes it possible for researchers to lev...
Recent advances in multimodal single-cell technologies have enabled simultaneous acquisitions of mul...