Post on 16-Dec-2015
The Wales Group in Context:Exploring Energy Landscapes
Research Review by Ryan BabbushApplied Computation 298r
February 8, 2013
Why potential energy surfaces?• Chemistry is the study of
stationary points on the Born-Oppenheimer PES
• Minima of this PES are molecules / conformers
• Saddle points are transition states between minima
• Chemistry and biochemistry is all about structure-function relationships – think proteins
• Global optimization is the goal
Caffeine in BO-Approximation
Caffeine without BO-Approximation
Example: water clusters• In liquid, water manifests as clusters, the
complete structure of which is likely impossible to measure experimentally
• For its 125th anniversary, Science released a special issue on the 125 most important open questions in science. Question #20: “What is the structure of water?”
• Complex cluster structure may explain anomalies in thermodynamic properties of water and stabilities of many large molecules such as proteins
• Proven to be NP Hard for atomic clusters, molecular structures are notoriously difficult to optimize*
*LT Wille and J Vennik. Computational complexity of the ground-state determination of atomic clusters. 1985 J. Phys. A: Math. Gen. 18 L419
The TIP3P force-fieldRules of the game:
1) Water has rigid bonds with fixed lengths, fixed angles, and fixed charges (see right)
2) Energy of system given by Lennard-Jones potential and Coulomb potential only
• How one specifies orientation of water molecule does not change “problem” but drastically changes PES
• Entire research communities study this as an optimization problem
Disconnectivity graphs / trees
• The tree idea belongs to Karplus but Wales has done a lot to popularize them and study their properties
• The banyan tree on the right is for H20(20) cluster from Wales’ 1998 Nature paper - the structure of this tree shows that water is a “strong” liquid
‘Martin Karplus’
Optimizing molecular clusters• He is literally the record keeper:
Cambridge Cluster Databse
• Employs Monte Carlo and genetic algorithms with basin hopping
• Wales is extremely good at this• I think (not sure) that he
coined “basin hopping”
Free energy surfaces
• Free energy is the quantity which ensembles minimize at equilibrium (right is Helmholtz)
• Entropy (the multiplicity of microstates in a macrostate) plays a role in free energy proportional to the temp
• Local free energy does not really exist but is sometimes useful to think about• It is given by the local
partition function• Ambiguity as to which
coordinates to average
Protein Folding
• Made more difficult by high degrees of frustration in optimized structure
• Probably hopeless in hardest case, possibly tractable in instances of proteins in nature
• HP model can give insight into how choice of coordinate determines energy landscape