I have recently moved to the National Institutes of Health; please see my new website here:
http://www2.niddk.nih.gov/NIDDKLabs/IntramuralFaculty/BestRobert.htm
My research is concerned with the dynamics of large biomolecules, in particular with protein dynamics, folding and binding. Through the impressive achievements of structural biology, much has been learnt about the function of proteins by solving the structures of their stable states (e.g. active, inactive conformations). Studying the dynamics and mechanism of transitions between these states is still a major challenge for both experiment and simulation, yet is equally important for understanding function. I develop novel methods for studying macromolecular dynamics and apply them to biologically interesting systems, using a combination of simulation and theory appropriate for addressing each question.
For example, we have devised algorithms for enhanced sampling of the “rare events” in simulations, which constitute the reactive portions of the trajectory; by designing good “reaction coordinates”, we are able to describe the progress of the reaction (mechanism) quantitatively. To study larger systems or longer time scales, we are developing coarse-grained models with reduced complexity. We have also devised improvements to all-atom simulation models, towards the goal of more accurately simulating protein folding and the mechanism of coupled folding and binding. We work closely with experimental collaborators, either by using theory to help in interpreting experiments or experimental data to refine simulation methodology. We have used coarse-grained models to help interpret single molecule protein folding experiments based on fluorescence resonance energy transfer or atomic force microscopy and all-atom models to interpret NMR dynamics experiments.
Selected Publications
Structural comparison of the two alternative transition states for folding of TI I27.
CD Geierhaas, RB Best, E Paci, M Vendruscolo, J Clarke - Biophysical Journal (
2006)
91, 263
(DOI:
10.1529/biophysj.105.077057)
Structural interpretation of hydrogen exchange protection factors in proteins: characterization of the native state fluctuations of CI2.
RB Best, M Vendruscolo - Structure (
2006)
14, 97
(DOI:
10.1016/j.str.2005.09.012)
Interpreting dynamically-averaged scalar couplings in proteins.
K Lindorff-Larsen, RB Best, M Vendruscolo - Journal of Biomolecular NMR (
2005)
32, 273
(DOI:
10.1007/s10858-005-8873-0)
What contributions to protein side-chain dynamics are probed by NMR experiments? A molecular dynamics simulation analysis
RB Best, J Clarke, M Karplus - Journal of Molecular Biology (
2005)
349, 185
(DOI:
10.1016/j.jmb.2005.03.001)
Simultaneous determination of protein structure and dynamics.
K Lindorff-Larsen, RB Best, MA DePristo, CM Dobson, M Vendruscolo - Nature (
2005)
433, 128
(DOI:
10.1038/nature03199)
Determination of protein structures consistent with NMR order parameters
RB Best, M Vendruscolo - Journal of the American Chemical Society (
2004)
126, 8090
(DOI:
10.1021/ja0396955)
The origin of protein sidechain order parameter distributions
RB Best, J Clarke, M Karplus - Journal of the American Chemical Society (
2004)
126, 7734
(DOI:
10.1021/ja049078w)
Hydrophobic core fluidity of homologous protein domains: Relation of side-chain dynamics to core composition and packing
RB Best, TJ Rutherford, SMV Freund, J Clarke - Biochemistry (
2004)
43, 1145
(DOI:
10.1021/bi035658e)
Mechanical unfolding of a titin Ig domain: structure of transition state revealed by combining atomic force microscopy, protein engineering and molecular dynamics simulations.
RB Best, SB Fowler, JLT Herrera, A Steward, E Paci, J Clarke - Journal of molecular biology (
2003)
330, 867
(DOI:
10.1016/S0022-2836(03)00618-1)
Hidden complexity in the mechanical properties of titin
PM Williams, SB Fowler, RB Best, JL Toca-Herrera, KA Scott, A Steward, J Clarke - Nature (
2003)
422, 446
(DOI:
10.1038/nature01517)
Funding
Further Funding Information
