科学者らがナノスケールの免疫システムの秘密を解明へ

Researchers at the Salk Institute have developed a detailed epigenetic catalog of human immune cells, showing how genetics and life experiences influence immune responses differently. The study, published in Nature Genetics, analyzed samples from 110 diverse individuals to distinguish inherited from environmental epigenetic changes. This work could lead to personalized treatments for infectious diseases.

2026年04月12日(日) AIによるレポート

Scientists at Scripps Research have developed a nanodisc platform that mimics viral membranes, uncovering hidden interactions in HIV and Ebola proteins that traditional methods miss. The technology allows for more accurate study of antibody responses, potentially accelerating vaccine development. The findings appear in Nature Communications.

Researchers have discovered that DNA in newly fertilized eggs forms a structured 3D scaffold before the genome activates, challenging long-held assumptions. Using a new technique called Pico-C, scientists mapped this organization in fruit fly embryos. A related study shows that disrupting this structure in human cells triggers an immune response as if under viral attack.

2026年03月09日(月) AIによるレポート

A new study has revealed over 200 metabolic enzymes attached directly to human DNA inside the cell nucleus, challenging traditional views of cellular processes. These enzymes form unique patterns in different tissues and cancers, described as a 'nuclear metabolic fingerprint.' The discovery suggests links between metabolism and gene regulation that may influence cancer development and treatment.