The prize recognizes foundational discoveries about regulatory T cells and the FOXP3 gene that redefined immune tolerance and opened avenues to treat autoimmune disease, enable transplantation, and advance immuno-oncology. ISB celebrates Dr. Brunkow’s leadership and collaborative science.
The pioneering work of Mary Brunkow and Fred Ramsdell began with a mysterious mutant mouse known as “scurfy,” leading them to identify the FOXP3 gene and unlock how regulatory T cells prevent autoimmune disease — discoveries that now point to new treatments in cancer and autoimmunity.
An international team of researchers, including scientists from the Institute for Systems Biology, has conducted one of the most comprehensive molecular studies of human diversity to date. Published in Cell, the work reveals how ethnicity and geography influence metabolism, immunity, the microbiome, and biological aging — insights that could help advance precision medicine for diverse populations.
ISB researchers help reveal a previously hidden layer of the human proteome, identifying a new class of protein-like molecules known as “peptideins” with potential implications for cancer, immunotherapy, and human disease.
The Biomedical Data Translator is now publicly available, offering a powerful open-source platform that integrates diverse biomedical datasets. Designed to accelerate discovery and patient care, Translator helps users explore complex data and uncover actionable insights with ease.
Like the draft “shotgun” Human Genome Project of the Human Genome Organization (HUGO), the HPP has now reached a significant decadal milestone of more than 90 percent completion of the Human Proteome that is referred to as the human proteome “parts list.”
ISB researchers and their collaborators are using systems biology approaches to learn how the malaria parasite is able to transfer to humans via the bite of an infected mosquito. The information they have uncovered may help identify new ways to prevent people from contracting the deadly disease.
Members of the Moritz lab, as part of an international consortium centered in Bolzano Italy, reports this week in Cell, “Current Biology”, a multi-omic approach to identify the stomach contents and microbiome of the 5300 year old Mummy, Oetzi, the Iceman from the Oetzal Alps on the Austrian/Italian border.