Immune Finding May Lead to New Ways to Protect People from Rotavirus Infection
Scientists at the University of Toronto discovered how a disruption in the immune system development of mice may lead to protection of rotavirus infection in humans.
Scientists at the University of Toronto discovered how a disruption in the immune system development of mice may lead to protection of rotavirus infection in humans.
By combining diverse datasets and powerful analytical and modeling tools, drug developers are finding more potential medicines than ever.
Repetitive HIV vaccinations can lead the body to produce antibodies targeting the immune complexes already bound to the virus.
Experts in multiomics share their predictions of the potential and needs of the field in the near future.
The emergence of polyintelligence will give us the chance to spark a modern technological renaissance to tackle our greatest challenges.
Researchers used computer modeling to predict which components of cigarette smoke might be recognized by antigen-presenting molecule MR1.
Repetitive HIV vaccinations can lead the body to produce antibodies targeting the immune complexes already bound to the virus.
Past advances and new technologies will continue to bring genomic medicine from concept to reality.
Study highlights use of techniques such as long-read genome sequencing, optical genome mapping, and RNA sequencing for rare disease diagnosis.
The partners will adapt Eukarÿs’ C3P3 engineered enzyme tech to work with adeno-associated virus vectors to boost biomanufacturing yields.
Researchers say study represents a resource that could also help to dissect Y-gene functions in other tissues.