Highlights of our Work
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Made with VMD

Staphylococcus aureus, a prominent human pathogen, employs a specific enzyme to evade the immune system. This enzyme converts antimicrobial fatty acids in the cellular membrane into anti-inflammatory compounds that protect the pathogen against the host inflammatory response. Understanding the membrane-binding mechanism of this enzyme is essential for developing new strategies to combat S. aureus infections.

As highlighted in our recent publication in J. Biol. Chem., Resource researchers employed molecular dynamics simulations using NAMD to study this mechanism. Utilizing a specifically designed membrane model with enhanced lipid motion, they captured how the enzyme binds to the membrane and described its pose within the membrane. These findings provide molecular insights into S. aureus' virulence and highlight potential targets for novel therapeutic interventions.

Editorials

The Future of Biomolecular Modeling

A 2015 TCBG Symposium brought together scientists from across the Midwest to brainstorm about what's on the horizon for computational modeling. See a summary of what these experts foresee. Read more

Photosynthesis Unraveled

Go behind the scenes to examine the myriad roles Illinois researchers have played to explain photosynthesis: quantum physicist, structural biologist, forensic scientist, and computational biophysicist. By Lisa Pollack. Read more

Announcements

Electron transport through peptidesTCBG members on TV newsSparing healthy microbes while using a novel antibioticTajkhorshid receives Beckman Institute Vision and Spirit Award


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