A new AI tool that models how variations in peptides change T cell receptor binding could help design immunotherapies with ...

Next-generation sequencing (NGS) has transformed immune profiling, enabling deeper characterization of disease mechanisms, ...

Mosquitoes engineered to swap out an amino acid in a key protein were resistant to malaria infection, preventing them from transmitting the disease.

Australian researchers are using peptides isolated from spider venom to develop treatments for a range of neurological and ...

Expert researchers outline scalable approaches to improve cellular therapy production through standardized and automated ...

In the 150 years since chromosomes were first discovered, scientists have studied them in various contexts, from insect cells ...

Mouse olfactory organoids revealed stem cells that preserve smell, offering clues to treat age- and disease-related smell ...

Uri Manor’s own hearing loss may not have originally inspired his research path, but his work on the topic now may lead to ...

Using artificial intelligence and single-cell transcriptomics, scientists mapped drug response patterns across 100 million ...

Exposing people with similar types of breast cancer to radiation alone led to changes in tumor and immune cells, paving the ...

Unraveling Complex Biology with Five-Dimensional Multiomics Learn how a next-generation platform accelerates biological research by enabling high-throughput, spatially resolved multiomics profiling.

Plug-and-play simplicity meets the demands of modern digital pathology workflows.