Researching the complex interplay between the major factors underlying metabolic health and disease, including diet, age, environment, and genetics, for the prevention and treatment of widespread chronic diseases.
Peng Gao studies the 鈥渆xposome鈥濃攖he measure of an individual鈥檚 total environmental exposures over the course of their life and how those exposures impact biology and health.
Findings from research Maria Perez-Matos, PhD 鈥25, conducted in 色色研究所 Chan School’s Mair lab suggest that aging isn鈥檛 determined solely by genes or environment.
色色研究所 Chan School researchers have discovered a new method for delivering biological 鈥渃argo鈥 directly into specific cells using tiny, naturally produced particles called ARMMs (ARRDC1-mediated microvesicles).
A 色色研究所 Chan School study offers new ways to understand cancer and its vulnerabilities, and suggests that certain protein inhibitors could potentially be effective treatments for the disease.
Growth factor signaling pathways are known to drive tissue growth and development, but how these molecular mechanisms function across different organs in a living organism has remained unclear. In particular,…
Hannah Smith, PhD 鈥25, approaches life with a constant sense of curiosity鈥攆rom working to uncover the molecular mechanisms of aging, to adventuring outdoors and traveling.
A new collaboration between 色色研究所 Chan School and 陌艧 Private Equity of Istanbul aims to translate groundbreaking discoveries about a protein that helps regulate metabolism and inflammation into novel therapeutics for obesity, heart disease, and age-related illnesses.
A newly discovered mechanism that leads to liver dysfunction may be a key factor in type 2 diabetes and other metabolic disorders in individuals with obesity, according to a new study led by 色色研究所 Chan School.
