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.

Capturing spatial information is essential to elucidate how cells function and interact within their native tissue environment. However, the initial spatial transcriptomics techniques have several ...

A major new review article led by researchers from the School of Mathematics at Harbin Institute of Technology has just been published in Quantitative Biology, offering a comprehensive comparison of ...

Chimeric antigen receptor T cell (CAR-T) therapy is considered one of the landmark achievements of modern medicine. The therapy involves harvesting a patient’s own immune cells, genetically ...

Trekker® technology works with any single-cell library prep workflow, adding spatial context through a platform-agnostic, ...

Master Scaling Single-Cell Biology. This free webinar series covers multi-omic data integration, spatial datasets, and new AI ...

In a single experiment, scientists can decipher the entire genomes of many patient samples, animal models or cultured cells. To fully realize the potential to study biology at this unprecedented scale ...

Every human cell packs roughly two meters of DNA into a nucleus only six micrometers wide. That ratio, confirmed by ...

Si Incorporated (Nasdaq: QSI) ("Quantum-Si," "QSI" or the "Company"), a proteomics company redefining protein analysis ...