AI Article Synopsis
- Scientists are finding new ways to add useful parts to special types of chemicals called N-heteroarenes, which is important for making new medicines.
- They focused on an easy method to change a specific part of pyridine (a type of N-heteroarene) to create a product called 4-aminopyridine, which can be used in medicine.
- By using specific reactions and adjusting how the chemicals behave, they figured out a good way to get the right product every time, and they also found methods that could help with other similar chemicals.
Article Abstract
The development of site-selective functionalization of N-heteroarenes is highly desirable in streamlined synthesis. In this context, direct amination of pyridines stands as an important synthetic methodology, with particular emphasis on accessing 4-aminopyridines, a versatile pharmacophore in medicinal chemistry. Herein, we report a reaction manifold for the C4-selective amination of pyridines by employing nucleophilic substitution of hydrogen (SH). Through 4-pyridyl pyridinium salt intermediates, 4-aminopyridine products are obtained in reaction with aqueous ammonia without intermediate isolation. The notable regioselectivity was achieved by the electronic tuning of the external pyridine reagents along with the maximization of polarizability in the proton elimination stage. Further mechanistic investigations provided a guiding principle for the selective C-H pyridination of additional N-heteroarenes, presenting a strategic avenue for installation of diverse functional groups.
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| http://dx.doi.org/10.1002/anie.202401388 | DOI Listing |
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