A new technique called ECCITE-seq, developed by scientists at the New York Genome Center’s (NYGC) Technology Innovation Lab (@NYGCtech), allows researchers to perform high-throughput measurements of multiple modalities of information from single cells. The technique, ECCITE-seq, published today in Nature Methods, stands ...
Read More »A 3D printed droplet microfluidic device for single cell RNA-sequencing
New Device Enables Low-Cost Single-Cell Analysis and Leads to Identification of Fibroblast Subtypes in Rheumatoid Arthritis Patients Single-cell analysis holds enormous potential to study how individual cells influence disease and respond to treatment, but the lack of cost-effective and user-friendly ...
Read More »CITE-seq – simultaneous epitope and transcriptome measurement in single cells
A new technique developed by scientists at the New York Genome Center (NYGC) represents an important step forward for single-cell RNA sequencing, an advancing field of genomics that provides detailed insights into individual cells and makes it possible to distinguish ...
Read More »phASER – Long range phasing and haplotypic expression from RNA sequencing
Haplotype phasing of genetic variants is important for clinical interpretation of the genome, population genetic analysis, and functional genomic analysis of allelic activity. Here researchers from Columbia University present phASER, a fast and accurate approach for phasing variants that are ...
Read More »RNA-Seq Analysis Pipeline – TUXEDO Protocol
Dr. Robine, New York Genome Center, lectures on “Understanding RNA-Seq analysis”
Read More »