Coupled transport of electrons and protons in a bacterial cytochrome oxidase-DFT calculated properties compared to structures and spectroscopies.

After a general introduction to the features and mechanisms of cytochrome c oxidases (CcOs) in mitochondria and aerobic bacteria, we present DFT calculated physical and spectroscopic properties for the catalytic reaction cycle compared with experimental observations in bacterial ba3 type CcO, also with comparisons/contrasts to aa3 type CcOs. The Dinuclear Complex (DNC) is the active catalytic reaction center, containing a heme a3 Fe center and a near lying Cu center (called CuB) where by successive reduction and protonation, molecular O2 is transformed to two H2O molecules, and protons are pumped from an inner region across the membrane to an outer region by transit through the CcO integral membrane protein. Structures, energies and vibrational frequencies for Fe-O and O-O modes are calculated by DFT over the catalytic cycle.

A Water Molecule Residing in the Fe···Cu Dinuclear Center of the Resting Oxidized as-Isolated Cytochrome Oxidase: A Density Functional Study.

Although the dinuclear center (DNC) of the resting oxidized "as-isolated" cytochrome oxidase (CO) is not a catalytically active state, its detailed structure, especially the nature of the bridging species between the Fe and Cu metal sites, is still both relevant and unsolved. Recent crystallographic work has shown an extended electron density for a peroxide type dioxygen species (O1-O2) bridging the Fe and Cu centers. In this paper, our density functional theory (DFT) calculations show that the observed peroxide type electron density between the two metal centers is most likely a mistaken analysis due to overlap of the electron density of a water molecule located at different positions between apparent O1 and O2 sites in DNCs of different CO molecules with almost the same energy.

Fragment-based screen against HIV protease.

We have employed a fragment-based screen against wild-type (NL4-3) HIV protease (PR) using the Active Sight fragment library and X-ray crystallography. The experiments reveal two new binding sites for small molecules. PR was co-crystallized with fragments, or crystals were soaked in fragment solutions, using five crystal forms, and 378 data sets were collected to 2.

A copper(I)-catalyzed 1,2,3-triazole azide-alkyne click compound is a potent inhibitor of a multidrug-resistant HIV-1 protease variant.

Treatment with HIV-1 protease inhibitors, a component of highly active antiretroviral therapy (HAART), often results in viral resistance. Structural and biochemical characterization of a 6X protease mutant arising from in vitro selection with compound 1, a C 2-symmetric diol protease inhibitor, has been previously described. We now show that compound 2, a copper(I)-catalyzed 1,2,3-triazole derived compound previously shown to be potently effective against wild-type protease (IC 50 = 6.

XtalView, protein structure solution and protein graphics, a short history.

From a user's point-of-view we are in the Golden Age of protein crystallographic software. In the past few decades, solving protein structures has gone from a task requiring man-months of effort to a process requiring minutes on an ordinary laptop with no human intervention required. The birth of XtalView coincided with the mainstream use of synchrotron radiation, seleno-Met phasing and it continues to be used in this age of robotic crystallization, Fed-Ex data collection and fully automated structure solution "pipelines".