Molecular dynamics and mutational analysis of the catalytic and translocation cycle of RNA polymerase.

Background: During elongation, multi-subunit RNA polymerases (RNAPs) cycle between phosphodiester bond formation and nucleic acid translocation. In the conformation associated with catalysis, the mobile "trigger loop" of the catalytic subunit closes on the nucleoside triphosphate (NTP) substrate. Closing of the trigger loop is expected to exclude water from the active site, and dehydration may contribute to catalysis and fidelity.

Induced, selective proteolysis of MLK3 negatively regulates MLK3/JNK signalling.

MLK3 (mixed lineage kinase 3) is a MAP3K [MAPK (mitogen-activated protein kinase) kinase kinase] that activates multiple MAPK pathways, including the JNK (c-Jun N-terminal kinase) pathway. Immunoblotting of lysates from cells ectopically expressing active MLK3 revealed an additional immunoreactive band corresponding to a CTF (C-terminal fragment) of MLK3. In the present paper we provide evidence that MLK3 undergoes proteolysis to generate a stable CTF in response to different stimuli, including PMA and TNFalpha (tumour necrosis factor alpha).

A molecular dynamics study comparing a wild-type with a multiple drug resistant HIV protease: differences in flap and aspartate 25 cavity dimensions.

HIV proteases can develop resistance to therapeutic drugs by mutating specific residues, but still maintain activity with their natural substrates. To gain insight into why mutations confer such resistance, long ( approximately 70 ns) Molecular Dynamics simulations in explicit solvent were performed on a multiple drug resistant (MDR) mutant (with Asn25 in the crystal structure mutated in silico back to the catalytically active Asp25) and a wild type (WT) protease. HIV proteases are homodimers, with characteristic flap tips whose conformations and dynamics are known to be important influences of ligand binding to the aspartates that form the catalytic center.

Prostaglandin endoperoxide H synthases: peroxidase hydroperoxide specificity and cyclooxygenase activation.

The cyclooxygenase (COX) activity of prostaglandin endoperoxide H synthases (PGHSs) converts arachidonic acid and O2 to prostaglandin G2 (PGG2). PGHS peroxidase (POX) activity reduces PGG2 to PGH2. The first step in POX catalysis is formation of an oxyferryl heme radical cation (Compound I), which undergoes intramolecular electron transfer forming Intermediate II having an oxyferryl heme and a Tyr-385 radical required for COX catalysis.

Water chain formation and possible proton pumping routes in Rhodobacter sphaeroides cytochrome c oxidase: a molecular dynamics comparison of the wild type and R481K mutant.

Cytochrome c oxidase (CcO) converts the energy from redox and oxygen chemistry to support proton translocation and create a transmembrane DeltamuH(+) used for ATP production. Molecular dynamics (MD) simulations were carried out to probe for the formation water chains capable of participating in proton translocation. Attention was focused on the region between and above the a and a(3) hemes where well-defined water chains have not been identified in crystallographic studies.

Histidine 386 and its role in cyclooxygenase and peroxidase catalysis by prostaglandin-endoperoxide H synthases.

Prostaglandin-endoperoxide H synthases (PGHSs) have a cyclooxygenase that forms prostaglandin (PG) G2 from arachidonic acid (AA) plus oxygen and a peroxidase that reduces the PGG2 to PGH2. The peroxidase activates the cyclooxygenase. This involves an initial oxidation of the peroxidase heme group by hydroperoxide, followed by oxidation of Tyr385 to a tyrosyl radical within the cyclooxygenase site.

High-field EPR study of tyrosyl radicals in prostaglandin H(2) synthase-1.

Various tyrosyl radicals generated by reaction of both native and indomethacin-inhibited ovine prostaglandin H synthase-1 with ethyl hydrogen peroxide were examined by using high-field/high-frequency EPR spectroscopy. The spectra for the initially formed tyrosyl radical commonly referred to as the "wide-doublet" species and the subsequent "wide-singlet" species as well as the indomethacin-inhibited "narrow-singlet" species were recorded at several frequencies and analyzed. For all three species, the g-values were distributed.