Los Alamos National Laboratory / Computational Biophysics Group / Elsevier Academic Press / Google / Sun / /
Facility
Computational Biophysics Group University of Illinois / Pittsburgh Supercomputing Center / Urbana-Champaign Beckman Institute / /
IndustryTerm
homology search / universal tools / energy barrier / hydrogenbond network / machinery / amino acid side / biological applications / quantum chemical calculations / quantum chemical description / energy / chemical reactions / abundant energy fueling life / energy storage / energy form / physiological solutions / hydrogen bond network / light energy / energy-rich molecule / biomolecular systems / computing / nanoscale systems / responsive web interface / car engine / /
NaturalFeature
mount Xeon / /
Organization
National Science Foundation / American Chemical Society / University of Illinois / Urbana-Champaign Beckman Institute for Advanced Science / Pittsburgh Supercomputing Center / /
Person
Emad Tajkhorshid / Deyu Lu / Umberto Ravaioli / Zaida Luthey-Schulten / Markus Dittrich / Klaus Schulten / Mu Gao / Boaz Ilan / Viola Vogel / Barry Isralewitz / Fangqiang Zhu / Hideki Kandori / Gregory Timp / David Craig / Ioan Kosztin / Marcos Sotomayor / Light Shigehiko Hayashi / Jiunn Benjamin Heng / James C. Phillips / Ilya Balabin / Felix Autenrieth / Yan Li / Taekjip Ha / Aleksij Aksimentiev / David S. Eisenberg / Justin Gullingsrud / Gregory A. Voth / John Kuriyan / Jin Yu / /
Position
Empirical nanotube model for biological applications / /
ProvinceOrState
Illinois / New York / /
PublishedMedium
Journal of Molecular Biology / Physical Review Letters / Journal of Physical Chemistry B / Nucleic Acids Research / Journal of the American Chemical Society / /
[Highlights[removed]Theoretical and Computational Biophysics Group University of Illinois at Urbana-Champaign Beckman Institute for Advanced Science and Technology