RESUMEN
Using unconventional synthesis protocols, two redox-active triguanidine units are connected by a dithiolate bridge, aligning the two redox-active units in close proximity. The reduced, neutral and the tetracationic redox states with two dicationic triguanidine units are isolated and fully characterized. Then, the dicationic redox states are prepared by mixing the neutral and tetracationic molecules. At low temperatures, the dications are diamagnetic (singlet ground state) with two different triguanidine units (neutral and dicationic). At room temperature, the triplet state with two radical monocationic triguanidine units is populated. At low temperature (210â K), chemical exchange by intramolecular through-space electron-transfer between the two triguanidine units is evidenced by EXSY NMR spectroscopy. Intramolecular through-space transfer of two electrons from the neutral to the dicationic triguanidine unit is accompanied by migration of the counterions in opposite direction. The rate of double-electron transfer critically depends on the bridge. No electron-transfer is measured in the absence of a bridge (in a mixture of one dicationic and one neutral triguanidine), and relatively slow electron transfer if the bridge does not allow the two triguanidine units to approach each other close enough. The results give detailed, quantitative insight into the factors that influence intramolecular through-space double-electron-transfer processes.
RESUMEN
What effects do international crises have on the public legitimacy of International Organizations (IOs)? Deviating from previous research, we argue that such crises make those international organizations more salient that are mandated to solve the respective crisis. This results in two main effects. First, the public legitimacy of those IOs becomes more dependent on citizens' crisis-induced worries, leading to a more positive view of those IOs. Second, as the higher salience also leads to higher levels of elite communication regarding IOs, elite blaming of the IOs during crises results in direct negative effects on public legitimacy beliefs on IOs. Finally, both the valence and content of the elite discourse additionally moderate the positive effects of crisis-induced worries. Implementing survey experiments on public legitimacy beliefs on the WHO during the COVID-19 crisis with about 4400 respondents in Austria, Germany and Turkey, we find preliminary evidence for the expectations derived from our salience argument. In the conclusion, we discuss the implications of these findings for future research on IO legitimacy and IO legitimation. Supplementary Information: The online version contains supplementary material available at 10.1007/s11558-021-09452-y.
RESUMEN
Cysteine residues in proteins are targets of numerous post-translational modifications and play important roles in protein structure and enzymatic function. Consequently, understanding the full biochemistry of proteins depends on determining the oxidation state and availability of the residues to be modified. We have developed a highly sensitive assay that accurately determines the number of unmodified cysteine residues in GST-fusion proteins. Only picomoles of protein are required for each reaction, which are carried out in 96-well glutathione-coated plates. Free unmodified cysteine residues are labeled and quantified using biotin and HRP-conjugated streptavidin. Our assay can be used to quantify reactions targeting sulfhydryl groups in proteins. We demonstrate this assay using full-length and truncation mutants of the SNARE proteins syntaxin1A, SNAP-25B, and synaptobrevin2, which have 0-4 cysteines. We are able to accurately determine the number of cysteine residues in each protein and follow the modification of these cysteines by oxidation and reaction with NEM (N-ethylmaleimide). This assay is as simple as running an ELISA or Western blot and, because of its high resolution, should allow detailed analysis of the chemistry of cysteine residues in proteins.
