Crystallization-Based Synthetic Route to Antimalarial Agent BRD5018: Diazocene Ring Formation via a Staudinger-aza-Wittig Reaction on an Azetidine-Ribose Template

Abstract: The development of an entirely crystallization-based synthetic route to the antimalarial BRD5018 is described, which assembles a structurally complex bicyclic azetidine scaffold adorned with five stereogenic centers without the need for any chromatographic separations. A diastereoselective glycine ester Claisen rearrangement, diastereomeric salt resolution, and diastereoselective iodo-lactonization are utilized to provide an efficient access to three contiguous stereogenic centers on an acyclic template with t… Show more

“…A particularly useful variant of the Norrish–Yang reaction would include a nitrogen atom at the β position of the photoexcitable ketone (such as 6 in Figure B) and would provide a route to azetidines in a simple manner . Azetidines have elicited recent interest as useful scaffolds for biologically active molecules. − This approach fails, however, because of an increased electron density at the β position (a lone pair of electrons on nitrogen). More facile than γ H-radical abstraction is quenching of the triplet excited state through a rapid electron transfer from nitrogen to form a ketyl radical anion, which opens a more favorable degradation pathway through the scission of the C–N bond, yielding methylketones and imine oligomers, or amines through complex reductive processes (Figure B). , While undesirable in the context of azetidinol formation, generation of ketyl radical anions by photoinduced electron transfer has found numerous synthetic applications .…”

Synthesis of Cycloheptatriene-Containing Azetidine Lactones

“…A particularly useful variant of the Norrish–Yang reaction would include a nitrogen atom at the β position of the photoexcitable ketone (such as 6 in Figure B) and would provide a route to azetidines in a simple manner . Azetidines have elicited recent interest as useful scaffolds for biologically active molecules. − This approach fails, however, because of an increased electron density at the β position (a lone pair of electrons on nitrogen). More facile than γ H-radical abstraction is quenching of the triplet excited state through a rapid electron transfer from nitrogen to form a ketyl radical anion, which opens a more favorable degradation pathway through the scission of the C–N bond, yielding methylketones and imine oligomers, or amines through complex reductive processes (Figure B). , While undesirable in the context of azetidinol formation, generation of ketyl radical anions by photoinduced electron transfer has found numerous synthetic applications .…”

Synthesis of Cycloheptatriene-Containing Azetidine Lactones

“…Staudinger aza-Wittig reactions are nowadays regularly employed in many fields of organic chemistry, as a step of a reaction sequence, 1 in syntheses of poly-substituted cyclic derivatives, 2–5 or for isotopic labelling. 6 This sequential reaction involves the formation of iminophosphorane from phosphane and organic azide, known as the Staudinger reaction, 7,8 and the reaction of the latter, known as the aza-Witting reaction, with aldehyde, CO 2 , CS 2 or isocyanate to give imine, isocyanate, isothiocyanate or carbodiimide, respectively.…”

Mechanochemical synthesis of β-cyclodextrin urea derivatives under reactive CO₂ atmosphere by Staudinger aza-Wittig reaction

“…Pyrrolopiperazine-2,6-diones were synthesized by employing a simple Ugi/nucleophilic substitution/N-acylation/debenzoylation sequence with high chemical yields and good diastereoselectivities . Aza-Wittig reaction has become an effective method for preparing nitrogen-containing heterocyclic compounds. − Therefore, we envisage that some heterocyclic compounds would easily be prepared if the Ugi-azide reaction was efficiently combined with the aza-Wittig reaction. On the basis of our application of Ugi and aza-Wittig reactions in the synthesis of N-heterocycles, − we hope to report here a new efficient and stereoselective synthesis of 12-tetrazolyl substituted ( E )-5 H -quinazolino­[3,2- a ]­quinazolines through sequential Ugi-azide/Staudinger/aza-Wittig/addition/Ag­(I)-catalyzed cyclization.…”

Stereoselective Synthesis of 12-Tetrazolyl Substituted (E)-5H-Quinazolino[3,2-a]quinazolines via Sequential Ugi-Azide/Staudinger/aza-Wittig/Addition/Ag(I)-Catalyzed Cyclization