This research investigates how melanoma switches between two gene states—one fast-growing and treatable, the other slow but highly invasive and responsible for brain metastases. By identifying genes that control this transition, the study aims to force melanoma into a more treatable form, improving therapeutic options and patient outcomes.

Type 1 diabetes affects millions worldwide and often begins in childhood, with no cure or prevention. This research uses early-life blood samples and single-cell immune profiling to identify genetic changes in immune cells before disease onset. The findings reveal new biomarkers that could enable early detection, targeted therapies, and future disease prevention.

About 8% of the human genome originates from ancient viruses. This research uses bioinformatics and evolutionary comparisons to understand why viral DNA persists and how cells silence it through DNA methylation. Identifying how genomes separate useful from non-functional DNA helps clarify which genetic elements matter for human health and disease.