A framework for analyzing single-cell genomics data, in which geometrical properties are harnessed to obtain insights on cellular diversity, including precise clustering, clear visualizations, and ...
Scientists at St. Jude Children's Research Hospital, the National Center for Genomic Analysis and the University of Adelaide have created a single-cell RNA analysis method that is 47 times cheaper and ...
Single-cell analysis is a ubiquitous laboratory technique that allows researchers to probe the myriad biomolecular states of cells. Single-cell assays can reveal gene and protein expression patterns, ...
Researchers increasingly turn to single-cell sequencing to answer a range of biological questions, with published single-cell data increasing year over year. As its popularity rises, so does the need ...
Recent advances in single-cell sequencing and spatial multi-omics have transformed our ability to resolve tumor ecosystems at unprecedented resolution.
Using sophisticated RNA sequencing technology, biomedical researchers can measure the activity of our genes across millions of single cells, creating detailed maps of tissues, organs, and diseases.
Scientists at Cincinnati Children's have identified how certain immune cells are molecularly programmed to respond faster when the body encounters a familiar threat, shedding light on immune memory ...
Plant immunity research has undergone a transformative shift with the advent of spatial and single-cell technologies, ...
Oregon Health & Science University researchers have developed a first-of-its-kind method to predict cancer patient survival using advanced molecular data from individual cells. Survival analysis is ...
Researchers from the University of Toronto (Canada) have presented a new high-resolution gene expression atlas that shows the normal differentiation process of hematopoietic cells at the American ...