In a paper published in SCIENCE CHINA Life Science, an international team of scientists provided a comprehensive overview of ...

A new technology is poised to transform the discovery of microbial species and enzymes with specific in situ metabolic ...

A new technology developed by the Single-Cell Center at Qingdao Institute of Bioenergy and Bioprocess Technology (QIBEBT) of ...

This manuscript offers valuable insights by identifying two distinct liver cancer subtypes through multi-omics integration and developing a robust prognostic model, validated across various datasets, ...

Introducing Annotatability—a powerful new framework to address a major challenge in biological research by examining how ...

The term "omics" refers to the study of the entirety of molecular mechanisms that happen inside an organism. With the advent ...

Not so long ago, the omics field was a highly siloed collection of specialized applications and technologies. Now, multiomics is going mainstream. But as researchers revel in single cell ...

The research field of inflammation and immunity, critical to both health and disease, is undergoing a transformative phase with the integration of precision ...

Performing multi-omics analyses using a single sample is challenging in toxicology studies. Now, researchers propose a new ...

A new artificial intelligence-powered tool called MISO (Multi-modal Spatial Omics) can detect cell-level characteristics of cancer by looking at data from extremely small pieces of tissue-some as ...

Depression is a highly prevalent disorder, and researchers still have a lot to learn about its biological underpinnings.

This strategic acquisition combines two innovative spatial biology platforms with Takara Bio’s industry-leading portfolio of single-cell genomics tools. TBUSH is a wholly owned subsidiary of ...