Our bodies are made up of around 75 billion cells. But what function does each individual cell perform and how greatly do a ...

Thanks to a new technology called Moscot ("Multi-Omics Single-Cell Optimal Transport"), researchers can now observe millions ...

cell isolation, quality control measures and working with complex samples. Single-cell genomics methods, such as single cell RNA sequencing (scRNA-seq), involve labeling biomolecules originating from ...

Single-cell isolation is critical to numerous research areas, including rare-cell analysis, biologics discovery and stem cell studies. However, identifying and isolating productive single cells is ...

the new quantum algorithm enables analysis of data from a single-cell technology known as CITE-seq. It allows for selection of the most important markers from billions of possible combinations—a ...

In contrast, single-cell Raman spectroscopy has emerged as a promising technology for rapid pathogen identification. This method characterizes the phenotypic features of microorganisms and offers ...

Trace metals are crucial for the growth of all living organisms. Understanding the role of these trace metals on metabolism ...

They have developed a method that, for the first time, enables the precise detection of nanocarriers -- tiny transport vehicles -- throughout the entire mouse body at a single-cell level.

An innovative hybrid bioreactor system converts CO2 into single-cell protein, enhancing microbial electrosynthesis and ...

“The acquisition of Curio Bioscience continues this legacy with the addition of Trekker, the first truly single-cell spatial technology.” Curio’s advanced Trekker and Seeker technologies ...