M. Wegner scite author profile

Resveratrol is the subject of intense research because of the abundance of this compound in the human diet and as one of the most valuable natural chemopreventive agents. Further advances require new resveratrol analogs be used to identify the structural determinants of resveratrol for the inhibition potency of cell proliferation by comparing experimental and docking studies. Therefore, we synthesized new trans/(E)- and cis/(Z)-resveratrol - analogs not reported to date - by modifying the hydroxylation pattern of resveratrol and a double bond geometry. We included them in a larger panel of 14 molecules, including (Z)-3,5,4'-trimethoxystilbene, the most powerful molecule that is used as reference. Using a docking model complementary to experimental studies on the proliferation inhibition of the human colorectal tumor SW480 cell line, we show that methylation is the determinant substitution in inhibition efficacy, but only in molecules bearing a Z configuration. Most of the synthetic methylated derivatives (E or Z) stop mitosis at the M phase and lead to polyploid cells, while (E)-resveratrol inhibits cells at the S phase. Docking studies show that almost all of the docked structures of (Z)-polymethoxy isomers, but not most of the (E)-polymethoxy isomers substantially overlap the docked structure of combretastatin A-4, taken as reference ligand at the colchicine-tubulin binding site.

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The impact of the amide connectivity on the assembly and dynamics of benzene-1,3,5-tricarboxamides in the solid state

Wegner

Dudenko

Graf

et al. 2011

Chem. Sci.

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Polar accumulation of the metabolic sensory histidine kinases DcuS and CitA in Escherichia coli

Scheu

Sdorra

Liao

et al. 2008

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Signal transduction in prokaryotes is frequently accomplished by two-component regulatory systems in which a histidine protein kinase is the sensory component. Many of these sensory kinases control metabolic processes that do not show an obvious requirement for inhomogeneous distribution within bacterial cells. Here, the sensory kinases DcuS and CitA, two histidine kinases of Escherichia coli, were investigated. Both are membrane-integral and involved in the regulation of carboxylate metabolism. The two-component sensors were fused with yellow fluorescent protein (YFP) and live images of immobilized cells were obtained by confocal laser fluorescence microscopy. The fluorescence of the fusion proteins was concentrated at the poles of the cells, indicating polar accumulation of the sensory kinases. For quantitative evaluation, line profiles of the imaged fluorescence intensities were generated; these revealed that the fluorescence intensity of the polar bright spots was 2.3-8.5 times higher than that of the cytoplasm. With respect to the cylindrical part of the membrane, the values were lower by about 40 %. The polar accumulation was comparable to that of methyl-accepting chemotaxis proteins (MCPs) and MCP-related proteins. The degree of DcuS-YFP localization was independent of the presence of MCP and the expression level of dcuS-yfp (or DcuS concentration). The presence of effector (fumarate or citrate, respectively) increased the polar accumulation by more than 20 %. Cell fractionation demonstrated that polar accumulation was not related to inclusion body formation. Therefore, sensory kinases DcuS and CitA, which regulate metabolic processes without obvious polar function, exhibit polar accumulation.

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Local Disorder in Hydrogen Storage Compounds: The Case of Lithium Amide/Imide

Ludueña¹,

Wegner²,

Bjålie³

et al. 2010

ChemPhysChem

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Amides and imides of alkali metals are a very promising class of materials for use as a hydrogen-storage system, as they are able to store and release hydrogen via a chemical route at controllable temperatures and pressures. We critically revise the present picture of the atomic structure of the lightest member (LiNH(2)/Li(2)NH) by using a combined computational and experimental approach. Specifically, ab initio path integral molecular dynamics simulations and solid-state (1)H NMR techniques are combined. The results show that the presently assumed local structure might be inconsistent or at least incomplete and needs considerable revision. In particular, the Li atoms turn out to be more mobile and more disordered than suggested by structural data obtained from X-ray scattering. Also, the configuration of the hydrogen atoms, which is accessible via the NMR experiment and the corresponding first-principles calculations, is different from the previously assumed data. The computed and experimentally observed (1)H NMR parameters are in very good mutual agreement and illustrate the unusual chemical environment of the hydrogen atoms in this system. Incorporating our results on the new lithium data, we show that the effect of nuclear quantum delocalization for the hydrogen atoms is considerably reduced compared to the perfect crystal structure.

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M. Wegner

Structural determinants of resveratrol for cell proliferation inhibition potency: Experimental and docking studies of new analogs

The impact of the amide connectivity on the assembly and dynamics of benzene-1,3,5-tricarboxamides in the solid state

Polar accumulation of the metabolic sensory histidine kinases DcuS and CitA in Escherichia coli

Local Disorder in Hydrogen Storage Compounds: The Case of Lithium Amide/Imide

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