Martin Burke

Clinical testing is underway for a potentially groundbreaking new treatment for cystic fibrosis.

Artificial intelligence, “building-block” chemistry and a molecule-making machine teamed up to find the best general reaction conditions for synthesizing chemicals important to biomedical and materials research – a finding that could speed innovation and drug discovery as well as make complex chemistry automated and accessible.

Dr. Martin D. Burke (MMG), a University of Illinois Urbana-Champaign professor of chemistry and of the Carle Illinois College of Medicine, has been elected to the National Academy of Medicine.

A natural small molecule derived from a cypress tree can transport iron in live mice and human cells lacking the protein that normally does the job, easing a buildup of iron in the liver and restoring hemoglobin and red blood cell production, a new study found.

In the fall of 2020, the University of Illinois Urbana-Champaign welcomed students back for in-person instruction amid the powerful first wave of the COVID-19 pandemic. The university successfully maintained operations throughout the semester – with zero COVID-19-related deaths or hospitalizations in the campus community – thanks to its “SHIELD: Target, Test, Tell” program.

During the earliest months of 2020, COVID-19 seemed like an innocuous event that was too geographically distant to affect the Illinois community. In fact, by March 10th there were only 19 confirmed cases. Nevertheless, Nigel Goldenfeld (BCXT leader/GNDP), former Swanlund Endowed Chair and professor of physics, and Sergei Maslov (BCXT/CABBI), a professor of bioengineering and Bliss Faculty Scholar, were worried. The news from China and Italy was concerning and in four days a significant portion of students, faculty, and staff were going to leave for spring break.

A cross-disciplinary UIUC team has demonstrated a major breakthrough in using automated synthesis to discover new molecules for organic electronics applications.

A new set of molecular building blocks aims to make complex chemistry as simple and accessible as a toy construction kit.

Researchers at the University of Illinois Urbana-Champaign and collaborators at Revolution Medicines Inc. developed a new class of chemical building blocks that simply snap together to form 3D molecules with complex twists and turns, and an automated machine to assemble the blocks like a 3D printer for molecules.

Advanced molecular imaging technology has now mapped the structure of a drug widely used to treat fungal infections but whose workings have mystified researchers and physicians for nearly 70 years.

In a new study, researchers at the University of Illinois Urbana-Champaign, the University of Wisconsin, Madison and the National Institutes of Health described in atomistic detail the structure of the drug amphotericin B, a powerful but toxic antifungal agent.