A novel electrosynthetic system for anodic substitution reactions by using parallel laminar flow in a microflow reactor.

We have developed a novel electrosynthetic system for anodic substitution reactions by using parallel laminar flow in a microflow reactor. This system enables nucleophilic reactions to overcome the restraint, such as the oxidation potential of nucleophiles and the stability of cationic intermediates, by the combined use of ionic liquids as reaction media and the parallel laminar flow in the microflow reactor. By using this novel electrosynthetic system, the anodic substitution reaction of carbamates, especially of cyclic carbamates, with allyltrimethylsilane were carried out to provide the corresponding products in moderate to good conversion yields in a single flow-through operation at ambient temperature (without the need for low-temperature conditions).

NMR structural study of two-disulfide variant of hen lysozyme: 2SS[6-127, 30-115]--a disulfide intermediate with a partly unfolded structure.

The 15N-labeled recombinant hen lysozyme and two species of two-disulfide variants, denoted as 2SS[6-127, 30-115] and 2SS[64-80, 76-94], were studied by means of NMR spectroscopy. The former variant contains two disulfide bridges in the alpha-domain, while the latter has one disulfide bridge in the beta-domain and the other one at the interface between two domains. Resonance assignments were performed using 3D TOCSY-HSQC and NOESY-HSQC spectra.