| |
|
| Yann
R. Chemla | | Experimental
biological physics, high-resolution optical tweezers, molecular motors, nucleic
acid and protein translocases | |
|
| | |
| |
|
| Robert
B. Gennis | | Molecular
mechanisms in aerobic respiratin - structural and functional relationships in
metalloproteins | | |
| John
A. Gerlt | | Mechanisms
of enzyme-catalyzed reactions and functional genomics: the importance of chemistry
in the evolution of new enzymatic activities |
| |
| Ido
Golding | | Systems
Biology: The study of intracellular dynamics with single-event resolution |
| |
| | |
| Martin
H. Gruebele | | Fast
protein folding dynamics studied by laser-induced temperature jump experiments
and modeling. | | |
| Taekjip
Ha | | Developing
and using single-molecule fluorescence microscopy and nano-mechanical manipulation
tools for molecular biophysics research. | |
|
| Raven
H. Huang | | Structural
studies of protein-RNA interactions; enzymes involved in RNA modifications; structure
based design of inhibitors against HIV-1 reverse transcriptase |
| |
| Eric
G. Jakobsson | | Computational
studies of ion channels and biological membranes, using simulation, bioinformatics,
and statistical mechanical analysis | |
|
| John
A. Katzenellenbogen | | Research
interests involve organic and inorganic chemistry, biochemistry, molecular biology,
and radiochemistry. | | |
| Neil
L. Kelleher | | Ultra-High
Performance Mass Spectrometry for "Top Down" Proteomics, Structural
Biology, and "Assembly Line" Enzymology. | |
|
| Deborah
E. Leckband | | Molecular
force movements; structure; proteins; electrostatics; biomembranes |
| |
| Yi
Lu | | Role
of metal ions in proteins, DNAs and RNAs with enzymatic function |
| |
| Zaida
Luthey-Schulten | | Statistical
mechanical framework to study protein structure prediction and protein folding |
| |
| Susan
A. Martinis | | Molecular
Mechanisms of aminoacyl-tRNA synthetases and group I intron splicing. Fidelity
of protein synthesis | |  |
| |
|
| Eric
Oldfield | | Protein
structure determination; design of novel drug molecules to kill parasitic protozoa
causing malaria, sleeping sickness & opportunistic infections of immunocompromised
individuals. | | |
| Chad
M. Rienstra | | Solid
state nuclear magnetic resonance (SSNMR), including the development of new pulse
sequence methodology and instrumentation, and application to studies of protein
structure and dynamics | | |
| Klaus
J. Schulten | | Structure
and function of supramolecular systems in the living cell; development of new
algorithms and efficient computing tools for structural biology |
| |
| Paul
R. Selvin | | Use
of novel forms of fluorescence, at both single-molecule and ensemble levels, to
study actomyosin, ion channels, and other biomolecules. | |
|
| Stephen
G. Sligar | | Structure-function
relationships in protein and nucleic acid systems |
| |
| Maria
Spies | | Biochemical
mechanisms and function of DNA helicases and DNA motor proteins |
|  |
| Kenneth
S. Suslick | |
Interests in synthetic, bio-organic and bioinorganic, materials,
and physical chemistry. | |
|
| Emadeddin
Tajkhorshid | | Computational
studies of permeation of molecules across biological membrane; simulation of membrane
proteins and pure lipid bilayers; understanding the structure-function relationship
and selectivity of membrane channels and transporters. | |
|
| | |
| Colin
A. Wraight | | Electron
and proton transfer in proteins and across membranes; photosynthetic energy transduction;
biological redox cofactors; molecular engineering of ligand-protein interactions |
| |
| Huimin
Zhao | | Directed
Evolution of Enzymes and Pathways, Proteomics | |
|
