1399327-71-9Relevant academic research and scientific papers
Access to 2-arylquinazolinesviacatabolism/reconstruction of amino acids with the insertion of dimethyl sulfoxide
Ma, Jin-Tian,Wang, Li-Sheng,Chai, Zhi,Chen, Xin-Feng,Tang, Bo-Cheng,Chen, Xiang-Long,He, Cai,Wu, Yan-Dong,Wu, An-Xin
supporting information, p. 5414 - 5417 (2021/06/09)
Quinazoline skeletons are synthesized by amino acid catabolism/reconstruction combined with the insertion/cyclization of dimethyl sulfoxide for the first time. The amino acid acts as a carbon and nitrogen source through HI-mediated catabolism and is then reconstructed using aromatic amines and dimethyl sulfoxide (DMSO) as a one-carbon synthon. This protocol is of great significance for the further study of the conversion of amino acids.
Palladium-catalyzed carbonylative synthesis of quinazolines: Silane act as better nucleophile than amidine
Lu, Jia-Ming,Huo, Yong-Wang,Qi, Xinxin,Wu, Xiao-Feng
, (2021/05/31)
A palladium-catalyzed reductive carbonylation reaction has been developed for the synthesis of quinazolines. With N-(2-iodophenyl)benzimidamide as starting materials, a series of quinazolines were obtained through the aromatic aldehyde intermediates in moderate to good yields with good functional group compatibilities. In this system, silane act as better nucleophile than amidine.
Niacin as a Potent Organocatalyst towards the Synthesis of Quinazolines Using Nitriles as C–N Source
Gujjarappa, Raghuram,Vodnala, Nagaraju,Reddy, Velma Ganga,Malakar, Chandi C.
, p. 803 - 814 (2020/02/18)
An efficient and cost-effective Vitamin-B3-catalyzed protocol towards the synthesis of diversely substituted quinazolines is illustrated using 2-aminobenzylamines and nitriles as substrates. An organocatalytic transformation has been investigat
Base-Promoted Synthesis of 2-Aryl Quinazolines from 2-Aminobenzylamines in Water
Chatterjee, Tanmay,Kim, Dong In,Cho, Eun Jin
, p. 7423 - 7430 (2018/07/29)
A transition-metal-free procedure for the synthesis of a highly valuable class of heteroaromatics, quinazolines, was developed by using easily available 2-aminobenzylamines and α,α,α-trihalotoluenes. The transformation proceeded smoothly in the presence of only sodium hydroxide and molecular oxygen in water at 100 °C, furnishing a variety of 2-aryl quinazolines. The crystallization process of the crude reaction mixture for the purification of the solid products circumvents huge solvent-consuming workup and column chromatographic techniques, which make the overall process more sustainable and economical.
Divergent Synthesis of Quinazolines Using Organocatalytic Domino Strategies under Aerobic Conditions
Gujjarappa, Raghuram,Maity, Suvik K.,Hazra, Chinmoy K.,Vodnala, Nagaraju,Dhiman, Shiv,Kumar, Anil,Beifuss, Uwe,Malakar, Chandi C.
, p. 4628 - 4638 (2018/09/13)
An easy and efficient organocatalytic approach to the synthesis of 2-substituted quinazolines is described based on the reaction between 2-aminobenzylamines and aldehydes or alcohols or amines. Three organocatalytic platforms were investigated, using 3-nitropyridine, pyridine N-oxide, and vitamin B3. Having established the new catalytic systems, the tandem transformations of 2-aminobenzylamines to give substituted quinazolines were achieved in excellent yields and with a broad substrate scope, with no formation of toxic side-products. The investigated conditions are not restricted to the use of aldehydes; the protocol also works well with alcohols or amines as substrates. These are oxidized in situ to the corresponding aldehydes to achieve the successful transformation. A mechanistic proposal has been drawn up based on control experiments. We found that under aerobic conditions, catalytic amounts of H2O2 can be generated; this plays a key role in the efficacy of the described approach. The green chemistry metrics of the developed method are also presented. The E factor of 8.18 mg/1 mg demonstrates that the reported method is an excellent complement to previous protocols.
Derisking the Cu-Mediated 18F-Fluorination of Heterocyclic Positron Emission Tomography Radioligands
Taylor, Nicholas J.,Emer, Enrico,Preshlock, Sean,Schedler, Michael,Tredwell, Matthew,Verhoog, Stefan,Mercier, Joel,Genicot, Christophe,Gouverneur, Véronique
supporting information, p. 8267 - 8276 (2017/06/27)
Molecules labeled with fluorine-18 (18F) are used in positron emission tomography to visualize, characterize and measure biological processes in the body. Despite recent advances in the incorporation of 18F onto arenes, the development of general and efficient approaches to label radioligands necessary for drug discovery programs remains a significant task. This full account describes a derisking approach toward the radiosynthesis of heterocyclic positron emission tomography (PET) radioligands using the copper-mediated 18F-fluorination of aryl boron reagents with 18F-fluoride as a model reaction. This approach is based on a study examining how the presence of heterocycles commonly used in drug development affects the efficiency of 18F-fluorination for a representative aryl boron reagent, and on the labeling of more than 50 (hetero)aryl boronic esters. This set of data allows for the application of this derisking strategy to the successful radiosynthesis of seven structurally complex pharmaceutically relevant heterocycle-containing molecules.
Palladium-catalyzed one pot 2-arylquinazoline formation via hydrogen-transfer strategy
Wang, Huamin,Chen, Hui,Chen, Ya,Deng, Guo-Jun
, p. 7792 - 7799 (2014/12/10)
The palladium catalytic system was first applied to 2-arylquinazoline synthesis via hydrogen transfer methodology. Various (E)-2-nitrobenzaldehyde O-methyl oximes reacted easily with alcohols or benzyl amines to provide N-heterocyclic compounds in good to
Copper-catalyzed domino reaction between 1-(2-halophenyl)methanamines and amidines or imidates for the synthesis of 2-substituted quinazolines
Omar, Mohamed A.,Conrad, Jürgen,Beifuss, Uwe
, p. 3061 - 3072 (2014/04/17)
The CuI-catalyzed domino reaction between 1-(2-bromophenyl)methanamines and amidines using K3PO4 as the base, pivalic acid as the additive, and aerial oxygen as the oxidant gives access to substituted quinazolines in a single step wi
Assembly of 4H-chromenes, imidazobenzothiazines and quinazolines via copper-catalyzed domino reactions using 2-halobenzyl tosylates as substrates
Omar, Mohamed A.,Conrad, Jürgen,Beifuss, Uwe
, p. 5682 - 5695 (2015/03/30)
The use of 2-halobenzyl tosylates as substrates in copper-catalyzed domino intermolecular substitution/intramolecular arylation processes for the efficient and selective preparation of heterocycles is reported for the first time. Reaction of 2-halobenzyl tosylates with β-ketoesters delivers 4H-chromenes with yields ranging between 59 and 89%. Imidazobenzothiazines are formed with yields up to 82% upon reaction of 2-halobenzyl tosylates with 2-mercaptoimidazoles. When 2-halobenzyl tosylates are reacted with benzamidines the corresponding quinazolines are obtained.
Unexpected copper-catalyzed cascade synthesis of quinazoline derivatives
Chen, Zhongyan,Chen, Jiuxi,Liu, Miaochang,Ding, Jinchang,Gao, Wenxia,Huang, Xiaobo,Wu, Huayue
, p. 11342 - 11348 (2013/12/04)
The first example of a copper-catalyzed cascade reaction of (2-aminophenyl)methanols with aldehydes using the combination of cerium nitrate hexahydrate and ammonium chloride has been developed, leading to a wide range of 2-substituted quinazolines in moderate to excellent yields. The efficiency of this transformation was demonstrated by compatibility with a wide range of functional groups. Thus, the method represents a convenient and practical strategy for synthesis of 2-substituted quinazoline derivatives.
