In a single experiment, scientists can decipher the entire genomes of many patient samples, animal models, or cultured cells.

The world of cells is surprisingly noisy. Each cell carries unique genetic information, but when we try to measure cellular activity, signals can be lost or blurred, and differences between ...

The volumes of genetic, biodiversity, and environmental data that can be obtained from individual studies are growing at an impressive rate, as are the public repositories sharing these data. Such ...

Microscopic images of human tissue are a cornerstone of biomedical research and clinical diagnostics. Yet despite their ...

Researchers present a comprehensive review of frontier AI applications in computational structural analysis from 2020 to 2025 ...

A team of physicists has developed a groundbreaking method for detecting congestive heart failure with greater ease and precision than previously thought possible. This multidisciplinary study, ...

Particle therapy is revolutionizing radiation oncology by enabling highly precise, individualized cancer treatments. As technology evolves, the integration ...

Researchers from Kyushu University have developed an innovative computational method, called ddHodge, that can reconstruct the complex dynamics of how cells decide their fate. As reported in Nature ...

The new method can determine crystal structures underlying experimental data thus far difficult to analyze. A joint research team led by Yuuki Kubo and Shiji Tsuneyuki of the University of Tokyo has ...

A session exploring the latest analytical and computational strategies in metabolomics/lipidomics is scheduled at analytica 2026 on Thursday, March 26, from 15:00–17:00 in ICM Saal 2. Four speakers ...

This Research Topic is part of a series of article collections published within Frontiers in Water including: - Emerging Directions in Socio-Hydrology: ...