A simple and efficient protocol to generate amidyl radicals from amine functionalities through a manganese‐mediated atom‐transfer reaction has been developed. This approach employs an earth‐abundant and inexpensive manganese complex, Mn2(CO)10, as the catalyst and visible light as the energy input. Using this strategy, site‐selective chlorination of unactivated C(sp3)−H bonds of aliphatic amines and intramolecular/intermolecular chloroaminations of unactivated alkenes were readily realized under mild reaction conditions, thus providing efficient access to a range of synthetically valuable alkyl chlorides, chlorinated pyrrolidines, and vicinal chloroamine derivatives. These practical reactions exhibit a broad substrate scope and tolerate a wide array of functional groups, and complex molecules including various marketed drug derivatives.
An expedient visible-light-promoted atom transfer radical cyclization (ATRC) reaction of unactivated alkyl iodides facilitated by earth-abundant and inexpensive manganese catalysis is described. The practical protocol shows a broad substrate scope and good functional-group tolerance, allowing for the preparation of synthetically valuable alkenyl iodides and diquinanes under simple and mild reaction conditions. Notably, the method provides a net redox-neutral strategy for ATRC reactions that avoids classic hydrogen atom transfer mechanism.
Development of fast and accurate methods to discover lead compounds for drug candidates is highly important. In this study, a reliable and effective post-column on-flow biochemical assay (POBA) was established to screen potent peroxidase inhibitors from complex chemical mixtures (e.g., natural product extracts). Multiple factors such as flow rate, organic phase, detection wavelength, and reaction coil were carefully investigated. To better understand the features of POBA, another emerging technology of ultrafiltration LC-MS was used for comparison. The result showed that POBA had advantages in saving time, avoiding false positives, and improving the accuracy. To illustrate the practicality of the method, Radix Salvia Miltiorrhizae, a traditional herb for cardiovascular disease treatment, was applied as the research objective. Finally, six compounds including tanshinol, protocatechuic aldehyde, salvianolic acid D, rosmarinic acid, lithospermic acid, and salvianolic acid B were determined as novel peroxidase inhibitors. Their bioactivities were validated by microplate-based assay, molecular docking, and pharmacophore modeling. This study demonstrates a great potential of POBA in the efficient and accurate discovery of drug candidates. Graphical abstract Compared with a classical method of ultrafiltration LC-MS, the newly developed method of on-flow bioassay shows advantages in saving time, avoiding false positives and improving the accuracy.
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