This Collection welcomes studies using or advancing multi-omic integration approaches. Research to develop multi-omic integration pipelines is particularly encouraged. Access to diverse omics ...

The rapid evolution of high-throughput sequencing and mass spectrometry has positioned clinical multi-omics at the forefront of modern laboratory medicine. By analyzing multiple biological layers ...

A recent review shows that proteomics-driven multi-omics integration reveals tumor heterogeneity and functional regulatory ...

Predicting tumor recurrence at the molecular level emerges as a critical challenge, especially for patients with complex multi-omics profiles. Traditional prognostic models relying on single ...

Want to know your true biological age? A new study in Engineering introduces gtAge, an innovative aging clock built by combining IgG N-glycome and ...

Predicting who will develop common diseases is key to prevention, detection, and early treatment. Traditionally, clinicians ...

A new research paper was published in Volume 18 of Aging-US on April 24, 2026, titled “The BHARAT study: a multi-modal, multi ...

Combining genomic data with spatial information has provided compelling insights into cellular activity that improve our understanding of biology. Measuring cellular gene expression while capturing ...

Marine ecosystems are among the most diverse and chemically rich environments on Earth, offering an extraordinary reservoir of bioactive compounds with ...

Plant abiotic stresses such as salinity and drought significantly impede plant growth and agricultural yield globally.

Human systems immunology is using multi-omics, single-cell tools, spatial technologies, and AI to decode immune responses across real-world human cohorts. The review highlights major opportunities for ...