2009-97-4Relevant articles and documents
A new method for the synthesis of N-protected β-amino-α-keto esters from fluoroalkanesulfonylazides and α-keto esters
Zhu, Shizheng,Jin, Guifang,Xu, Yong
, p. 4389 - 4394 (2003)
In the presence of a secondary amine, treatment of α-keto esters with fluoroalkanesulfonyl azides at room temperature afforded N-sulfonyl protected β-amino-α-keto esters in good to excellent yields. This reaction provided a novel, direct and convenient access to N-sulfonyl protected β-amino-α-keto esters from α-keto esters and fluoroalkanesulfonyl azides under mild conditions. However, the reaction of fluoroalkanesulfonyl azides with β-ketoester enamines afforded two products: N-fluoroalkanesulfonyl amidines and diazoacetate. The reaction mechanism is discussed.
Development of a povarov reaction/carbene generation sequence for alkenyldiazocarbonyl compounds
Jadhav, Appaso Mahadev,Pagar, Vinayak Vishnu,Liu, Rai-Shung
, p. 11809 - 11813 (2012)
Rings aplenty: A HOTf-catalyzed (Tf=trifluoromethanesulfonyl) Povarov reaction of alkenyldiazo species has been developed and delivers diazo-containing cycloadducts stereoselectively (see scheme). The resulting cycloadducts provide access to six- and seven-membered azacycles through the generation of metal carbenes as well as the functionalization of diazo group. Copyright
Rh(III)-catalyzed chelation-assisted intermolecular carbenoid functionalization of α-imino Csp3-H bonds
Chen, Xun,Xie, Ying,Xiao, Xinsheng,Li, Guoqiang,Deng, Yuanfu,Jiang, Huanfeng,Zeng, Wei
, p. 15328 - 15331 (2015)
A Rh(iii)-catalyzed cross-coupling/cyclization cascade of α-imino Csp3-H bonds with donor/acceptor α-acyl diazocarbonyl compounds has been developed. This novel transformation involves ligand-directed Csp3-H bond functionalization with carbenoids under the pyridine-chelation assistance, and offered an efficient access to synthetically versatile polysubstituted N-(2-pyridyl)pyrroles with a broad range of functional group tolerance.
Azidotris(diethylamino)phosphonium bromide: A self-catalyzing diazo transfer reagent
McGuiness, Mark,Shechter, Harold
, p. 4987 - 4990 (1990)
Acidic methylene compounds are conveniently converted to diazo compounds in high yields by azidotris(diethylamino)phosphonium bromide, 1, in diethyl ether using only a catalytic amount of base. The product diazo compounds are easily separated from the co-product hexaethylphosphorimidic triamide hydrobromide.
Rh-Catalyzed Coupling of Acrylic/Benzoic Acids with α-Diazocarbonyl Compounds: An Alternative Route for α-Pyrones and Isocoumarins
Hong, Chao,Liu, Zhanxiang,Yu, Shuling,Zhang, Yuhong
supporting information, p. 815 - 820 (2022/02/07)
A coupling of acrylic acids/benzoic acids with α-diazocarbonyl compounds has been realized by a combined catalytic system of rhodium catalyst and Zn(OAc)2 additive. The presence of Zn(OAc)2 obviously accelerates the C(sp2)
Exporting Metal-Carbene Chemistry to Live Mammalian Cells: Copper-Catalyzed Intracellular Synthesis of Quinoxalines Enabled by N?H Carbene Insertions
Gutiérrez, Sara,Mascare?as, José L.,Tomás-Gamasa, María
supporting information, p. 22017 - 22025 (2021/08/30)
Implementing catalytic organometallic transformations in living settings can offer unprecedented opportunities in chemical biology and medicine. Unfortunately, the number of biocompatible reactions so far discovered is very limited, and essentially restricted to uncaging processes. Here, we demonstrate the viability of performing metal carbene transfer reactions in live mammalian cells. In particular, we show that copper (II) catalysts can promote the intracellular annulation of alpha-keto diazocarbenes with ortho-amino arylamines, in a process that is initiated by an N-H carbene insertion. The potential of this transformation is underscored by the in cellulo synthesis of a product that alters mitochondrial functions, and by demonstrating cell selective biological responses using targeted copper catalysts. Considering the wide reactivity spectrum of metal carbenes, this work opens the door to significantly expanding the repertoire of life-compatible abiotic reactions.
Amino-modified Merrifield resins as recyclable catalysts for the safe and sustainable preparation of functionalized α-diazo carbonyl compounds
Fantinel, Mariane,Valiati, Nayara,Moro, Pedro A.M.,Sá, Marcus M.
, (2021/03/30)
Amino-functionalized polystyrene polymers derived from Merrifield resins were prepared and characterized. These basic materials were successfully employed as heterogeneous catalysts in the diazo transfer reaction to 1,3-dicarbonyl compounds, furnishing the corresponding diazo compounds in good to excellent yields and in relatively short reaction times. In addition, the work-up and purification protocols are simple and do not generate large amounts of waste, which are important features in sustainable catalysis and environmentally benign processes. The feasibility of the recovery and reuse of the amino-modified catalysts was also verified, since they can be employed up to five times without appreciable loss of catalytic activity. This straightforward procedure can be readily scaled up to gram scale, enabling the wide application of this method. The synthetic potential was demonstrated through the two-step preparation of 2-amino-N-dodecylacetamide (ANDA), a small molecule of commercial relevance.