- Microwave-Assisted CuCl-Catalyzed Three-Component Reactions of Alkynes, Aldehydes, and Amino Alcohols
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A microwave (MW)-assisted three-component coupling of amino alcohols, aldehydes, and alkynes is developed under catalysis by CuCl. Compared with thermal conditions, MW irradiation greatly increases the reaction efficiency. The reactions of various primary N -alkyl/arylamino alcohols, aliphatic/aromatic aldehydes, and alkynes are systematically investigated, affording the desired products in moderate to good yields. Notably, acetylene is also an effective reactant under the current MW-assisted conditions.
- Chen, Ning,Li, Xiang,Xu, Jiaxi
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p. 3336 - 3344
(2019/08/28)
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- Nucleophilic Fluorination and Radiofluorination via Aziridinium Intermediates: N-Substituent Influence, Unexpected Regioselectivity, and Differences between Fluorine-19 and Fluorine-18
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The efficient dehydrofluorination and radiofluorination of N,N-disubstituted-β-aminoalcohols through an anchimeric-assisted mechanism was developed. An investigation into the influence of N-substituents on the ring opening of the aziridinium intermediate indicated differences in the isomeric ratio and the yields of fluorinated products obtained from N,N-disubstituted-phenylalaninol. This influence was substantial for 18F-radiofluorination, with yields varying from 0 to 71% at room temperature (RT). Although no significant effects were observed in the fluorine-19 chemistry when the reaction was heated to 90 °C, considerable changes appeared during radiofluorination. In the latter case, the radiochemical yields increased, and degradation of the 2-fluoro-propan-1-amine isomer (b) occurred, leading to a regiospecific reaction in the radiolabeling of [18F]-fluorodeprenyl. This method involving nucleophilic radiofluorination at RT was successfully applied to the radiolabeling of [18F]-2-fluoroethylamines in which the influence of the N-substituent was also observed.
- Médoc, Marie,Sobrio, Franck
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p. 10086 - 10097
(2015/11/03)
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- Design, synthesis, and structure-activity relationship studies of novel fused heterocycles-linked triazoles with good activity and water solubility
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Triazoles with fused-heterocycle nuclei were designed and evaluated for their in vitro activity on the basis of the binding mode of albaconazole using molecular docking, along with SAR of antifungal triazoles. Tetrahydro-[1,2,4] triazolo[1,5-a]pyrazine and tetrahydro-thiazolo[5,4-c]pyridine nuclei were preferable to the other four fused-heterocycle nuclei investigated. Potent in vitro activity, broad spectrum and better water solubility were attained when triazoles containing nitrogen aromatic heterocycles were attached to these two nuclei. The most potent compounds 27aa and 45x, with low hERG inhibition and hepatocyte toxicity, both exhibited excellent activity against Candida, Cryptococcus, and Aspergillus spp., as well as selected fluconazole-resistant strains. A high water-soluble compound 58 (the disulfate salt of 45x) displayed unsatisfactory in vivo activity because of its poor PK profiles. Mice infected with C.alb. SC5314 and C.alb. 103 (fluconazole-resistant strain) and administered with 27aa displayed significantly improved survival rates. 27aa also showed favorable pharmacokinetic (PK) profiles.
- Cao, Xufeng,Sun, Zhaoshuan,Cao, Yongbing,Wang, Ruilian,Cai, Tongkai,Chu, Wenjing,Hu, Wenhao,Yang, Yushe
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supporting information
p. 3687 - 3706
(2014/05/20)
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