Reduction potential calculations of the Fe-S clusters in Thermus thermophilus respiratory complex I.

Respiratory complex I facilitates electron transfer from NADH to quinone over ~95 Å through a chain of seven iron-sulfur (Fe-S) clusters in the respiratory chain. In this study, the reduction potentials of the Fe-S clusters in Thermus thermophilus complex I are calculated using a Density Functional Theory + Poisson-Boltzmann method. Our results indicate that the reduction potentials are influenced by a variety of factors including the clusters being deeply buried in the complex and the protonation state of buried ionizable residues.

A single-site multipole model for liquid water.

Accurate and efficient empirical potential energy models that describe the atomistic interactions between water molecules in the liquid phase are essential for computer simulations of many problems in physics, chemistry, and biology, especially when long length or time scales are important. However, while models with non-polarizable partial charges at four or five sites in a water molecule give remarkably good values for certain properties, deficiencies have been noted in other properties and increasing the number of sites decreases computational efficiency. An alternate approach is to utilize a multipole expansion of the electrostatic potential due to the molecular charge distribution, which is exact outside the charge distribution in the limits of infinite distances or infinite orders of multipoles while partial charges are a qualitative representation of electron density as point charges.

Molecular Multipole Potential Energy Functions for Water.

Water is the most common liquid on this planet, with many unique properties that make it essential for life as we know it. These properties must arise from features in the charge distribution of a water molecule, so it is essential to capture these features in potential energy functions for water to reproduce its liquid state properties in computer simulations. Recently, models that utilize a multipole expansion located on a single site in the water molecule, or "molecular multipole models", have been shown to rival and even surpass site models with up to five sites in reproducing both the electrostatic potential around a molecule and a variety of liquid state properties in simulations.