Synthesis of Aminopyridines and Aminopyridones by Cobalt‐Catalyzed [2+2+2] Cycloadditions Involving Yne‐Ynamides: Scope,Limitations, and Mechanistic Insights |
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| Authors: | Pierre Garcia Dr. Yannick Evanno Dr. Pascal George Dr. Mireille Sevrin Dr. Gino Ricci Prof. Dr. Max Malacria Dr. Corinne Aubert Prof. Dr. Vincent Gandon |
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| Affiliation: | 1. UPMC, Univ Paris 06, IPCM 7201, 4 Place Jussieu, 75252 Paris Cedex 05 (France), Fax: (+33)?144‐27‐73‐60;2. Sanofi recherche & développement 1 avenue Pierre Brossolette, 91385 Chilly‐Mazarin (France);3. Sanofi‐Chimie, 45 chemin de Météline, 04200 Sisteron (France) |
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| Abstract: | An in‐depth study of the cobalt‐catalyzed [2+2+2] cycloaddition between yne‐ynamides and nitriles to afford aminopyridines has been carried out. About 30 nitriles exhibiting a broad range of steric demand and electronic properties have been evaluated, some of which open new perspectives in metal‐catalyzed arene formation. In particular, the use of [CpCo(CO)(dmfu)] (dmfu=dimethyl fumarate) as a precatalyst made possible the incorporation of electron‐deficient nitriles into the pyridine core. Modification of the substitution pattern at the yne‐ynamide allows the regioselectivity to be switched toward 3‐ or 4‐aminopyridines. Application of this synthetic methodology to the construction of the aminopyridone framework using a yne‐ynamide and an isocyanate was also briefly examined. DFT computations suggest that 3‐aminopyridines are formed by formal [4+2] cycloaddition between the nitrile and the intermediate cobaltacyclopentadiene, whereas 4‐aminopyridines arise from an insertion pathway. |
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| Keywords: | alkynes cobalt cycloaddition nitrogen heterocycles reaction mechanisms reactive intermediates |
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