866863-50-5Relevant academic research and scientific papers
Zn(OTf)2-catalyzed, microwave-promoted synthesis of 2-substituted 5-methyloxazoles from propargylic amides
Safrygin, Alexander,Dar'in, Dmitry,Lukin, Alexei,Bakholdina, Anna,Sapegin, Alexander,Krasavin, Mikhail
supporting information, p. 777 - 779 (2019/02/13)
The versatile conversion of propargylic amides to the respective 2-substituted 5-methyloxazoles was efficiently catalyzed by Zn(OTf)2 (5 mol%) under microwave irradiation in toluene. The method was applicable to a wide range of aliphatic, aroma
Glycosyl triazoles as novel insect β-N-acetylhexosaminidase OfHex1 inhibitors: Design, synthesis, molecular docking and MD simulations
Dong, Lili,Shen, Shengqiang,Chen, Wei,Lu, Huizhe,Xu, Dongdong,Jin, Shuhui,Yang, Qing,Zhang, Jianjun
, p. 2315 - 2322 (2018/12/11)
The insect enzyme GH20 β-N-acetyl-D-hexosaminidase OfHex1 represents an important chitinolytic enzyme found in the agricultural pest Ostrinia furnacalis (Guenée) and inhibition of this enzyme has been considered a promising strategy for the development of eco-friendly pesticides. In this article, based on the structure of the catalytic domains of OfHex1, a series of novel glycosyl triazoles were designed and synthesized via Cu-catalyzed azide-alkyne [3+2] cycloaddition reaction. To investigate the potency and selectivity of these glycosyl triazoles, the inhibition activities towards OfHex1 and HsHexB (human β-N-acetylhexosaminidase B) were studied. Particularly compound 17c (OfHex1, Ki = 28.68 μM; HsHexB, Ki > 100 μM) exhibited a suitable activity and selectivity against OfHex1. Furthermore, the possible inhibitory mechanisms of 17c with OfHex1 were studied using molecular docking and MD simulations. The structure-activity relationship results as well as the formed binding patterns may provide promising insights into the further development of novel OfHex1 inhibitors.
Sequential Au/Cu Catalysis: A Two Catalyst One-Pot Protocol for the Enantioselective Synthesis of Oxazole α-Hydroxy Esters via Intramolecular Cyclization/Intermolecular Alder-Ene Reaction
Nalivela, Kumara Swamy,Rudolph, Matthias,Baeissa, Elham S.,Alhogbi, Basma G.,Mkhalid, Ibraheem A. I.,Hashmi, A. Stephen K.
supporting information, p. 2183 - 2190 (2018/04/30)
A convenient protocol for the enantioselective synthesis of oxazole α-hydroxy ester derivatives 4 from readily available propargylamides 1 and alkylglyoxylates 3 was developed. The first step of the one-pot procedure is the selective intramolecular in situ formation of an alkylideneoxazoline 2, which then in an intermolecular reaction is enantioselectively transformed to the oxazole α-hydroxy ester derivatives 4 in quantitative yield and good to excellent enantioselectivity via an asymmetric copper(II)-catalyzed Alder-ene reaction. (Figure presented.).
Palladium-Catalyzed Cascade Difluoroalkylation/Cyclization of N-Propargylamides: Synthesis of Oxazoles and Oxazolines
Ma, Jun-Wei,Wang, Qiang,Wang, Xin-Gang,Liang, Yong-Min
, p. 13296 - 13307 (2018/11/02)
A palladium-catalyzed process to construct oxazoles and oxazolines with broad functional-group tolerance has been developed, and the method introduces difluoromethyl groups into heterocycles in a one-pot fashion. This system uses a carbonyl oxygen as the acceptor for the addition of a vinylpalladium intermediate to achieve the cyclization. Oxazoline derivatives are generated as the Z-isomer with high stereoselectivity. Additionally, we validated the tentative mechanism of this reaction.
Zn-catalyzed hydrohydrazination of propargylamides with BocNHNH2: A novel entry into the 1,2,4-triazine core
Lukin, Alexey,Vedekhina, Tatiana,Tovpeko, Dmitry,Zhurilo, Nikolay,Krasavin, Mikhail
, p. 57956 - 57959 (2016/07/07)
Hydrohydrazination of a variety of propargylamides with BocNHNH2 under Zn(OTf)2 catalysis, unexpectedly, gave dihydro-1,2,4-triazines with a loss of the protecting group. The initial products can be efficiently aromatized in situ wit
Cyclization of propargylic amides: Mild access to oxazole derivatives
Weyrauch, Jan P.,Hashmi, A. Stephen K.,Schuster, Andreas,Hengst, Tobias,Schetter, Stefanie,Littmann, Anna,Rudolph, Matthias,Hamzic, Melissa,Visus, Jorge,Rominger, Frank,Frey, Wolfgang,Bats, Jan W.
supporting information; experimental part, p. 956 - 963 (2010/06/12)
The substrate scope, the mechanistic aspects of the gold-catalyzed oxazole synthesis, and substrates with different aliphatic, aromatic, and functional groups in the side chain were investigated. Even molecules with several propargyl amide groups could easily be converted, delivering di- and trioxazoles with interesting optical properties. Furthermore, the scope of the gold(I)-catalyzed alkylidene synthesis was investigated. Further functionalizations of these isolable intermediates of the oxazole synthesis were developed and chelate ligands can be obtained. The use of Barluenga's reagent offers a new and mild access to the synthetically valuable iodoalkylideneoxazoles from propargylic amides, this reagent being superior to other sources of halogens.
