When we hear sounds, specialized cells in the cochlear nucleus are the first to process that information, enabling our brains to understand speech, enjoy music and recognize various noises. For ...

The map was developed by using single-cell RNA sequencing to analyze 1.4 million plasma and immune cells in bone marrow from over 300 patients.

Researchers developed two computational tools to decode how cells communicate in tissues. sCCIgen creates realistic virtual ...

Mapping is crucial in understanding and contextualizing our environments. Mapping serves many purposes – it helps us establish efficient paths between destinations, locate new restaurants or find our ...

Cell mapping methods have emerged as a robust framework for the global analysis of nonlinear dynamical systems. By discretising the continuous state space into a finite number of cells, researchers ...

Researchers have created an early map of some of the human body's estimated 37.2 trillion cells. Each type of cell has a unique role, and knowing what all the cells do can help scientists better ...

In a recent perspective article published in the journal Nature Communications, over 30 scientists from around the world discussed the action plans and principles of the global scientific initiative ...

Researchers at the Johns Hopkins University School of Medicine have mapped variation in human stem cells that explains how cells of an individual may shape a unique “developmental dance” at the ...

In this discussion in GEN’s “The State of Multiomics and NGS” virtual summit, originally broadcast on April 23, 2025, Jonah Cool, PhD, Science Program Officer at CZI and Sarah Teichmann, PhD, Research ...