Highlights of our Work
Highlight: Unraveling the Structure of a Viral Genome     (Previous Highlights)
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The recent pandemic has underscored the critical importance of understanding viral structure and function to prevent their spread. By employing a multiresolution simulation approach that utilizes ARBD and NAMD 3.0, researchers at the Resource revealed how a DNA virus organizes its genome through repeated tight folding of the DNA rather than the traditional view often depicted in textbooks. Atomistic simulations further confirmed consistency with available experimental data, including pressure and average structure. These groundbreaking findings were recently published in Nature.

Editorials

The Future of Biomolecular Modeling

Whole Cell
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

Computational Biology of Membrane Proteins

MscS
Since 1988 Illinois researchers have consistently honed their skills in parallel computing, which enabled them to elucidate dynamic processes occurring in many membrane proteins and produce exciting discoveries. 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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Klaus Schulten


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    Highly Cited

    Excitons in a photosynthetic light-harvesting system: A combined molecular dynamics, quantum chemistry and polaron model study. Physical Review E, 65:031919, 2002.   
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