Нагой Ф.Н. Понимание Другого Как Основа Человечности Человека: Диалектика Этического И Эстетического

The copper-catalyzed carbomagnesiation reaction of cyclopropenyl esters 1 leads to various substituted cyclopropanes species 3 in good yields with very high diastereoselectivities. The reaction proceeds through a syn-chelated carbomagnesiation reaction and could be extended to various cyclopropenylmethyl ester derivatives 5. The potential of this approach was illustrated by the preparation of two consecutive all-carbon quaternary stereocenters. However, the carbometalation reaction needs to be performed at temperature ranging from -35 to -20 °C to avoid subsequent fragmentation reaction into stereodefined β,γ-nonconjugated unsaturated esters 4. Alternatively, the carbocupration reaction with organocopper species could also be performed to leads to configurationally stable cyclopropyl copper species 2[Cu]. Additionally, when the Lewis acid character of the copper center is decreased (i.e., RCuCNLi), the reaction proceed with an anti-selectivity. The diastereodivergent behavior of these organometallic species is of synthetic interest, since both diastereomers syn-3 and anti-3 can be obtained, at will, from the same precursor cyclopropenyl esters 1.

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Brook Rearrangement as a Trigger for the Ring Opening of Strained Carbocycles

Zhang

Eppe

Marek

2015

Angew Chem Int Ed

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The combined regio-and stereoselective carbometalation of cyclopropenyl amides,f ollowed by the addition of an acyl silane,l ed to the formation of polysubstituted cyclopropyl derivatives as unique diastereoisomers.Upon warming of the reaction mixture to room temperature,aBrook rearrangement proceeded with inversion of configuration to provideready access to d-ketoamides possessing aquaternary carbon center with high enantiomeric ratios through selective CÀCbond cleavage of the ring.

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Selectfluor and NFSI exo‐Glycal Fluorination Strategies Applied to the Enhancement of the Binding Affinity of Galactofuranosyltransferase GlfT2 Inhibitors

Dumitrescu

Eppe

Tikad

et al. 2014

Chemistry A European J

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Two complementary methods for the synthesis of fluorinated exo-glycals have been developed, for which previously no general reaction had been available. First, a Selectfluor-mediated fluorination was optimized after detailed analysis of all the reaction parameters. A dramatic effect of molecular sieves on the course of the reaction was observed. The reaction was generalized with a set of biologically relevant furanosides and pyranosides. A second direct approach involving carbanionic chemistry and the use of N-fluorobenzenesulfonimide (NFSI) was performed and this method gave better diastereoselectivities. Assignment of the Z/E configuration of all the fluorinated exo-glycals was achieved based on the results of HOESY experiments. Furthermore, fluorinated exo-glycal analogues of UDP-galactofuranose were prepared and assayed against GlfT2, which is a key enzyme involved in the cell-wall biosynthesis of major pathogens. The fluorinated exo-glycals proved to be potent inhibitors as compared with a series of C-glycosidic analogues of UDP-Galf, thus demonstrating the double beneficial effect of the exocyclic enol ether functionality and the fluorine atom.

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Probing UDP-galactopyranose mutase binding pocket: A dramatic effect on substitution of the 6-position of UDP-galactofuranose

Eppe¹,

Peltier²,

Daniellou³

et al. 2009

Bioorganic & Medicinal Chemistry Letters

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Guillaume Eppe

Stereocontrolled Formation of Several Carbon–Carbon Bonds in Acyclic Systems

Modulable and Highly Diastereoselective Carbometalations of Cyclopropenes

Brook Rearrangement as a Trigger for the Ring Opening of Strained Carbocycles

Selectfluor and NFSI exo‐Glycal Fluorination Strategies Applied to the Enhancement of the Binding Affinity of Galactofuranosyltransferase GlfT2 Inhibitors

Probing UDP-galactopyranose mutase binding pocket: A dramatic effect on substitution of the 6-position of UDP-galactofuranose

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