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 ...

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 ...

Moving single-cell analysis from in vitro to in silico ... As DeepLife uses interpretable, rather than black box, AI, its technology does more than just predict how a cell will behave; it also ...

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.

“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 ...

In contrast, Microvast's technology completely eliminates liquid electrolytes. This breakthrough allows a single cell to achieve dozens of volts or higher based on specific application needs.