Tetracoordinate MIDA (N-methyliminodiacetic acid) boronates have found broad utility in chemical synthesis. Here, we describe mechanistic insights into the migratory aptitude of the MIDA boryl group in boron transfer processes, and show that the hemilability of the nitrogen atom on the MIDA ligand enables boron to mechanistically resemble either a hydride or a proton. The first case involves a 1,2-boryl shift, in which boron migrates as a nucleophile in its tetracoordinate form. The second case involves a neighbouring atom-promoted 1,4-boryl shift, in which boron migrates as an electrophile in its pseudo-tricoordinate form. Density functional theory studies and in situ NMR measurements all suggest that MIDA can act as a dynamic switch. These findings encouraged the development of novel migration processes involving boron that exploit the chameleonic behaviour of boron by acting as both a nucleophile and an electrophile, including the first report of a compound with a boronate functionality bound to carbon in the carboxylic acid oxidation state.
The use of photoredox catalyst [Au2(dppm)2]Cl2 to initiate free-radical cyclizations onto indoles is reported. Excitation of the dimeric Au(I) photocatalyst for the reduction of unactivated bromoalkanes and bromoarenes is used for the generation of carbon-centered radicals. Previous to this work, reduction processes leading to indole functionalization utilizing photoredox catalysts were limited to activated benzylic or α-carbonyl-positioned bromoalkanes. This method offers a mild and safe alternative to organostannanes and pyrophoric initiators for access to high energy radicals that were previously inaccessible through catalytic or stoichiometric means.
Despite their therapeutic potential, peptide macrocycles often suffer from drawbacks such as low membrane permeability, proteolytic instability, and conformational lability. As a result, there have been significant efforts to "depeptidize" amino acid-rich macrocycles through the incorporation of heterocyclic grafts into their backbones. In this concept article, we summarize selected recent methodologies that can be used to introduce heterocycles into cyclic peptides.
Herein, we describe the synthesis of novel β-amino boronate peptidomimetics from amphoteric α-borylaldehydes in the Ugi multicomponent reaction. A mild deprotection method provided the free and stable boronic acid forms of the target molecules, which display notable stability toward protodeborylation. Despite the presence of Lewis acidic boron, there is no evidence for hydrolysis of the adjacent amide via a 5- or 6-membered ring intermediate. This methodology should facilitate the development of libraries of new boron-containing antibiotics and antifungal agents.
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