- Mn(OAc) 3Induced C-4 Arylations of Quinazoline 3-Oxides with Arylboronic Acids
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The use of manganese triacetate as an oxidant component in the C-4 arylations of 2-aryl-quinazoline 3-oxides with arylboronic acids is reported. The new protocol was applied to prepare new 2,4-diarylated quinazoline 3-oxides in good to high yields. The me
- Samandram, Rashinikumar,Koruk?u, Meliha ?etin,Co?kun, Necdet
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p. 210 - 216
(2021/09/13)
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- A bagasse-supported magnetic manganese dioxide nanoparticle: applications in the selective aerobic oxidation of alcohols and one-pot tandem oxidative synthesis of quinazolinones
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Magnetic manganese dioxide nanoparticles (MnO2-Fe3O4) were coated on sugarcane bagasse as a sugar industrial waste and bio-support (MnO2-Fe3O4@bagasse) via an in situ reduction strategy, in which potassium permanganate was used as the precursor of MnO2 and sugarcane bagasse as a bio-support and reducing agent of KMnO4. The synthesized bio-based catalyst was characterized by X-ray diffraction, thermogravimetric analysis, inductively coupled plasma optical emission spectroscopy, scanning electron microscopy, energy dispersive spectroscopy, Brunauer–Emmett–Teller surface area analysis, and vibrating sample magnetometer analysis. The catalyst was successfully utilized in the selective aerobic oxidation of primary and secondary benzylic alcohols to their corresponding carbonyl compounds and one-pot tandem oxidative synthesis of 2-(substituted)quinazoline-4(3H)-ones from the o-aminobenzamide and aromatic alcohols in the absence of oxidizing reagent or initiator. Graphical abstract: [Figure not available: see fulltext.]
- Farhid, Hassan,Hajishaabanha, Fatemeh,Rashidi Vahid, Adina,Shaabani, Ahmad,Shaabani, Shabnam
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- A magnetically retrievable copper ionic liquid nanocatalyst for cyclooxidative synthesis of 2-phenylquinazolin-4(3: H)-ones
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In the present work, we report the design and fabrication of a copper-containing ionic liquid supported magnetic nanocatalyst via a convenient and straightforward synthetic approach for the formation of 2-phenylquinazolin-4(3H)-ones using o-aminobenzamide and benzaldehydes as the reaction partners. The successful formation and properties of the as-prepared catalyst have been thoroughly investigated using diverse physico-chemical techniques including FT-IR, XRD, FE-SEM, TEM, ICP, VSM, BET and TGA. Using this nanocatalytic system, a variety of 2-phenylquinazolin-4(3H)-ones are synthesized in excellent yields with operational ease and short reaction times in an environmentally preferable solvent under open air and without using any external oxidizing agent. Besides, the catalyst possessed facile magnetic recoverability and remarkable reusability for six consecutive runs without any appreciable decrease in the catalytic efficiency.
- Gupta, Radhika,Arora, Gunjan,Yadav, Priya,Dixit, Ranjana,Srivastava, Anju,Sharma, Rakesh Kumar
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p. 890 - 898
(2021/02/03)
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- Synthesis, in vitro cytotoxic, anti-Mycobacterium tuberculosis and molecular docking studies of 4-pyridylamino- and 4-(ethynylpyridine)quinazolines
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A series of 4-(pyridylamino)- and 4-(ethynylpyridine)quinazolines were successfully prepared via Sonogashira cross-coupling and dechloroamination reactions on the C(4)-Cl position of the requisite 2-(p-phenyl)-4-chloroquinazolines. The prepared compounds were characterized by means of 1H- and 13C-NMR, FT-IR and mass spectrometry techniques. The structure of 2-(4-chlorophenyl)-4-(2-(pyridin-4-yl) ethynyl) quinazoline from the 4-(ethynylpyridine) series was confirmed by single crystal X-ray analysis which indicates monoclinic crystal system and P21/c space group. Compounds from the 4-chloro-, 4-(pyridylamino)- and 4-(ethynylpyridine)-quinazoline series were evaluated for anti-Mycobacterium tuberculosis (Mtb) properties in vitro employing rifampicin as a reference drug. The results from the Alamar Blue assay (Mtb H37Rv strain) revealed promising MIC90 ranging from 125 μM. The cytotoxicity of the synthesised compounds was tested against the Raw 264.7 microphage cell line at a maximum concentration of 50 μM. The possible mode of interaction against the Mtb was theoretically explained through molecular 3ZXR protein and the more prominent hydrogen bond is observed between the nitrogen of the pyridine ring moiety of the 5 and 6 series with OH group of SER280. Also, a metal coordination between the methoxy benzene moiety of compound 6e and Mg2+ is also observed, explaining the SAR of these compounds to MtGS.
- Dilebo, Kabelo B.,Gumede, Njabulo J.,Mampa, Richard M.,Mangokoana, Dikgale,Matsebatlela, Thabe M.,Moraone, Ngaoko R.,Nxumalo, Winston,Omondi, Bernard
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- Metal-free catalyst for the visible-light-induced photocatalytic synthesis of quinazolinones
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In the present work, we have developed a novel and environmentally friendly method for the synthesis of quinazolinones using fluorescein as a photocatalyst via a condensation reaction of o-aminobenzamides and aldehydes under visible light irradiation. In this protocol, neither toxic oxidants nor transition-metal catalysts were needed, and a series of quinazolinones could be obtained in high efficiencies. In addition, this reaction can be extended to gram levels and has a large potential of wide application in future industrialization.
- Wang, Rongzhou,Liu, Shiyuan,Li, Longfei,Song, Ao,Yu, Shengsheng,Zhuo, Shuping,Xing, Ling-Bao
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- Synthesis of Difluoromethyl-Substituted Quinazolines through Selective Difluoromethylation
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A highly selective difluoromethylation of quinazolines has been achieved by using commercially available ethyl bromodifluoroacetate as difluorocarbene precursor, providing the corresponding difluoromethyl substituted quinazoline derivatives with up to 83% yield.
- Peng, Jing,Hu, Ludan,Chen, Mu-Wang,Deng, Zhihong,Peng, Yiyuan
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p. 2286 - 2292
(2021/03/04)
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- Three-Component Couplings among Heteroarenes, Difluorocyclopropenes, and Water via C-H Activation
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Three-component couplings have been realized for efficiently constructing various nitrogen-containing skeletons via C-H activation, where difluorocyclopropenes have been first identified as coupling partners. Many substrates including sp2 and sp3 C-H substrates were well tolerated, furnishing the corresponding products in good yields. Furthermore, a catalyst-dependent reaction was also developed, enabling divergent construction of two different frameworks. The application value of these reactions was demonstrated in gram-scale experiments with as little as 1 mol % catalyst.
- Liu, Xuexin,Chen, Jian,Yang, Chunyan,Wu, Zhouping,Li, Zhiyang,Shi, Yuesen,Huang, Tianle,Yang, Zhongzhen,Wu, Yong
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supporting information
p. 6831 - 6835
(2021/09/08)
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- Method for synthesizing 2 -phenylquinazolone compound by taking styrene compound as raw material
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The invention discloses a method for synthesizing a 2-phenyl quinazolinone compound. The method comprises the steps of adopting a styrene compound and 2-aminobenzamide as reaction raw materials; underthe combined action of a palladium catalyst, a ligand and oxygen, reacting to obtain the 2-phenyl quinazolinone compound, wherein the reaction temperature is 80 DEG C to 110 DEG C, a reaction formulais as shown in the below figure, and R is hydrogen, fluorine, chlorine, bromine, methyl, trifluoromethyl, nitro or methoxyl. The method provided by the invention has the beneficial effects that the raw material styrene compound is cheap and easy to get, so that the method is more economical; a preparation method is simple and convenient to operate, and the obtained product is easy to post-process, so that the method is suitable for large-scale industrial production; no high temperature and high pressure is needed, and a reaction condition is mild; the method is short in reaction time, high efficient to react, high in yield, and higher in reaction efficiency after reaction amplification.
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Paragraph 0077-0086
(2021/03/03)
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- Synthesis of quinazolin-4(3H)-ones via electrochemical decarboxylative cyclization of α?keto acids with 2-aminobenzamides
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Herein, an environmentally benign electrochemical protocol has been disclosed for the synthesis of quinazolin-4(3H)-one derivatives from readily available α?keto acids and 2-aminobenzamides. This decarboxylative cyclization process proceeds conveniently in the absence of any homogeneous metal catalysts, bases, or external oxidants. This protocol also features CO2 by-products, mild reaction conditions (room temperature and air atmosphere), and a wide variety of substrate scope, including an array of 2,3-disubstituted quinazolinone products.
- Tian, Qing,Wei, Yu,Xu, Liang,Zhang, Jinli
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- Aerobic primary and secondary amine oxidation cascade by a copper amine oxidase inspired catalyst
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Herein, we report a bioinspired catalytic system for the one-pot cascade oxidation of a native primary amine and anin situgenerated non-native secondary amine. The catalyst consists of ano-quinone cofactor phd (1,10-phenanthroline-5,6-dione) and a copper ion and operates under ambient air conditions. Quinazolin-4(3H)-ones, which are common pharmacophores present in numerous pharmaceuticals and bioactive compounds, were synthesized in high yields. A detailed kinetic and mechanistic study elucidates the role of the catalyst in the multi-step oxidative cascade reaction.
- Thorve, Pradip Ramdas,Maji, Biplab
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p. 1116 - 1124
(2021/02/26)
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- An Efficient Synthesis of 2-Substituted Quinazolin-4(3H)-ones by Using Recyclable Wang Resin Supported Sulfonic Acid Catalyst
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An efficient synthesis of 2-substituted Quinazolin-4(3H)-ones has been developed from isatoic anhydride with various amidoximes by using a recyclable polymer-supported sulphonic acid catalyst. Excellent functional group compatibility and high yields are the important features of this protocol.
- Kallam, Srinivasa Reddy,Kalyani, K.
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p. 790 - 796
(2022/03/01)
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- Electrochemical synthesis of quinazolinone: via I2-catalyzed tandem oxidation in aqueous solution
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The development of protocols for synthesizing quinazolinones using biocompatible catalysts in aqueous medium will help to resolve the difficulties of using green and sustainable chemistry for their synthesis. Herein, using I2 in coordination with electrochemical synthesis induced a C-H oxidation reaction which is reported when using water as the environmentally friendly solvent to access a broad range of quinazolinones at room temperature. The reaction mechanism strongly showed that I2 cooperates electrochemically promoted the oxidation of alcohols, then effectively cyclizing amides to various quinazolinones.
- Hou, Huiqing,Ma, Xinhua,Lin, Yingying,Lin, Jin,Sun, Weiming,Wang, Lei,Xu, Xiuzhi,Ke, Fang
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p. 17721 - 17726
(2021/05/29)
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- Electro-oxidative cyclization: Access to quinazolinones: Via K2S2O8without transition metal catalyst and base
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A K2S2O8-promoted oxidative tandem cyclization of primary alcohols with 2-aminobenzamides to synthesize quinazolinones was successfully achieved under undivided electrolytic conditions without a transition metal and base. The key feature of this protocol is the utilization of K2S2O8 as an inexpensive and easy-to-handle radical surrogate that can effectively promote the reaction via a simple procedure, leading to the formation of nitrogen heterocycles via direct oxidative cyclization at room temperature in a one-pot procedure under constant current. Owing to the use of continuous-flow electrochemical setups, this green, mild and practical electrosynthesis features high efficiency and excellent functional group tolerance and is easy to scale up.
- Hou, Huiqing,Hu, Yongzhi,Ke, Fang,Sun, Weiming,Wu, Xianghua,Yu, Ling,Zhou, Sunying
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p. 31650 - 31655
(2021/11/30)
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- Iron catalyzed metal-ligand cooperative approaches towards sustainable synthesis of quinolines and quinazolin-4(3H)-ones
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Herein we report simple, efficient, and economically affordable metal-ligand cooperative strategies for synthesizing quinolines and quinazolin-4(3H)-ones via dehydrogenative functionalization of alcohols. Various polysubstituted quinolines and quinazolin-4(3H)-ones were prepared in good yields via dehydrogenative coupling of readily available alcohols with ketones and 2-aminobenzamides, respectively under air using a well-defined Fe(II)-catalyst, ([FeL1Cl2] (1)) bearing a redox-active azo-aromatic pincer 2-((4-chlorophenyl)diazenyl)-1,10-phenanthroline) (L1). Control experiments and mechanistic investigation disclose that the one-electron reduced mono-anionic species [1]? bearing an iron-stabilized azo-anion radical ligand catalyzes these reactions. Both iron and the redox-active arylazo ligand participate synergistically during the different steps of these catalytic reactions.
- Mondal, Rakesh,Chakraborty, Gargi,Guin, Amit Kumar,Pal, Subhasree,Paul, Nanda D.
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- Zinc Stabilized Azo-anion Radical in Dehydrogenative Synthesis of N-Heterocycles. An Exclusively Ligand Centered Redox Controlled Approach
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Herein we report an exclusively ligand-centered redox controlled approach for the dehydrogenation of a variety of N-heterocycles using a Zn(II)-stabilized azo-anion radical complex as the catalyst. A simple, easy-to-prepare, and bench-stable Zn(II)-complex (1b) featuring the tridentate arylazo pincer, 2-((4-chlorophenyl)diazenyl)-1,10-phenanthroline, in the presence of zinc-dust, undergoes reduction to form the azo-anion radical species [1b]- which efficiently dehydrogenates various saturated N-heterocycles such as 1,2,3,4-tetrahydro-2-methylquinoline, 1,2,3,4-tetrahydro-isoquinoline, indoline, 2-phenyl-2,3-dihydro-1H-benzoimidazole, 2,3-dihydro-2-phenylquinazolin-4(1H)-one, and 1,2,3,4-tetrahydro-2-phenylquinazolines, among others, under air. The catalyst has further been found to be compatible with the cascade synthesis of these N-heterocycles via dehydrogenative coupling of alcohols with other suitable coupling partners under air. Mechanistic investigation reveals that the dehydrogenation reactions proceed via a one-electron hydrogen atom transfer (HAT) pathway where the zinc-stabilized azo-anion radical ligand abstracts the hydrogen atom from the organic substrate(s), and the whole catalytic cycle proceeds via the exclusive involvement of the ligand-centered redox events where the zinc acts only as the template.
- Das, Siuli,Mondal, Rakesh,Chakraborty, Gargi,Guin, Amit Kumar,Das, Abhishek,Paul, Nanda D.
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p. 7498 - 7512
(2021/06/30)
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- Site-Selective C–H Amidation of 2-Aryl Quinazolinones Using Nitrene Surrogates
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The site-selective modifications of quinazolinones constitute a pivotal topic in drug discovery and material science. Herein, we describe the rhodium(III)-catalyzed C–H amidation of 2-aryl quinazolin-4(3H)-ones with a range of nitrene surrogates including dioxazolones, organic azides, and N-methoxyamides. Complete site-selectivity and functional group tolerance are observed. Notably, the large-scale reaction and late-stage functionalization highlight the synthetic potential of the developed protocol. Combined mechanistic investigations elucidate a plausible reaction mechanism of this process.
- Kim, Saegun,Jeoung, Daeun,Kim, Kunyoung,Lee, Seok Beom,Lee, Suk Hun,Park, Min Seo,Ghosh, Prithwish,Mishra, Neeraj Kumar,Hong, Suckchang,Kim, In Su
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supporting information
p. 7134 - 7143
(2020/10/02)
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- Copper mediated one-pot synthesis of quinazolinones and exploration of piperazine linked quinazoline derivatives as anti-mycobacterial agents
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A facile method was developed for the synthesis of quinazolinone derivatives in a one-pot condensation reaction via in situ amine generation using ammonia as the amine source and with the formation of four new C-N bonds in good to excellent yields. With the optimised method, we synthesized a library of piperazine linked quinazoline derivatives and the synthesized compounds were evaluated for their inhibitory activity against Mycobacterium tuberculosis. The compounds 8b, 8e, 8f, 8m, 8n and 8v showed potent anti-mycobacterial activity with MIC values of 2-16 μg mL-1. All the synthesized compounds follow Lipinski's rules for drug likeness. This journal is
- Ahmad, Md. Naiyaz,Chopra, Sidharth,Dasgupta, Arunava,Gatadi, Srikanth,Gour, Jitendra,Kaul, Grace,Madhavi, Y. V.,Malasala, Satyaveni,Nanduri, Srinivas,Shukla, Manjulika
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p. 43533 - 43538
(2020/12/25)
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- Imidazolium chloride as an additive for synthesis of 4(3H)-quinazolinones using anthranilamides and DMF derivatives
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Imidazolium chloride as an environmentally benign additive efficiently facilitates construction of 4(3H)-quinazolinones using anthranilamides and DMF derivatives. A series of 4(3H)-quinazolinones were prepared in moderate to excellent yields without conventional oxidants, metal catalysts and corrosive acids or other additives.
- Dai, Zeshu,Li, Dan,Li, Zhiyao,Liu, Heng,Luo, Wen,Shang, Suqin,Tian, Qingqiang,Wang, Shuqi,Wang, Xuetong,Wang, Yin,Wu, Huili,Xiao, Xin,Yuan, Jianyong,Zhou, Shangjun
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- Electrochemical Synthesis of Quinazolinones by the Metal-Free and Acceptor-Free Dehydrogenation of 2-Aminobenzamides
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An efficient approach has been developed for the construction of quinazolin-4(3 H)-ones by the selective anodic dehydrogenative oxidation/cyclization of benzylic chlorides and 2-aminobenzamides. The method features acceptor-free and metal-free dehydrogenation of amines to imines; a subsequent intermolecular addition provides the products in moderate to good yields.
- Yao, Yan,Meng, Xiu-Jin,Teng, Qing-Hu,Chen, Yan-Yan
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supporting information
p. 1795 - 1799
(2020/09/07)
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- C2-substituted quinazolinone derivatives exhibit A1 and/or A2A adenosine receptor affinities in the low micromolar range
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Antagonists of the adenosine receptors (A1 and A2A subtypes) are widely researched as potential drug candidates for their role in Parkinson's disease-related cognitive deficits (A1 subtype), motor dysfunction (A2A subtype) and to exhibit neuroprotective properties (A2A subtype). Previously the benzo-α-pyrone based derivative, 3-phenyl-1H-2-benzopyran-1-one, was found to display both A1 and A2A adenosine receptor affinity in the low micromolar range. Prompted by this, the α-pyrone core was structurally modified to explore related benzoxazinone and quinazolinone homologues previously unknown as adenosine receptor antagonists. Overall, the C2-substituted quinazolinone analogues displayed superior A1 and A2A adenosine receptor affinity over their C2-substituted benzoxazinone homologues. The benzoxazinones were devoid of A2A adenosine receptor binding, with only two compounds displaying A1 adenosine receptor affinity. In turn, the quinazolinones displayed varying degrees of affinity (low micromolar range) towards the A1 and A2A adenosine receptor subtypes. The highest A1 adenosine receptor affinity and selectivity were favoured by methyl para-substitution of phenyl ring B (A1Ki = 2.50 μM). On the other hand, 3,4-dimethoxy substitution of phenyl ring B afforded the best A2A adenosine receptor binding (A2AKi = 2.81 μM) among the quinazolinones investigated. In conclusion, the quinazolinones are ideal lead compounds for further structural optimization to gain improved adenosine receptor affinity, which may find therapeutic relevance in Parkinson's disease-associated cognitive deficits and motor dysfunctions as well as exerting neuroprotective properties.
- Pieterse, Lianie,Terre'Blanche, Gisella,van der Walt, Mietha M.
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supporting information
(2020/06/08)
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- Nanoporous Cu doped ZnS nanoparticles an efficient photo catalyst for the chemoselective synthesis of 2-substituted azoles via C-N arylation/ CSp3– H oxidation/ cyclization/dehydration sequence in visible light
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ZnS and Cu:ZnS nanoparticles were prepared by aqueous chemical method and characterized by several analytical tools. Nanoparticles have an average size of about ~ 18 nm and possess highly open mesopores, moderate surface area, and uniform morphology. UV–vis spectra designate that doping of Cu shifted the optical response of the ZnS nanoparticles in to a visible region. These Cu:ZnS nanoparticles were employed as a photocatalyst for chemoselective synthesis of 2-substituted azoles by the reaction of benzyl bromides and 1,2-Diaminobenzene or 2-Mercaptoaniline in visible light. Analogous experiments confirmed that the reaction were proceeds through one pot C–N arylation/ CSp3– H oxidation/ cyclization/dehydration sequence. The enhanced catalytic activity by doping could be attributed to the presence of trapping level generated by copper doping which augments the relaxation time of electron and holes so that they are easily available for the reaction. The method was also applicable for the synthesis of quinazolin-4(3H)-ones.
- Dandia, Anshu,Bansal, Sarika,Sharma, Ruchi,Kumar Mahawar, Dinesh,Rathore, Kuldeep S.,Lal Meena, Mohan,Parewa, Vijay
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- A Metal- and Ligand-Free Synthesis of Quinazolin-4(3H)-ones via a Bu4NI/TBHP-Mediated Oxidative Cleavage of the Olefinic C=C Bond
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Abstract: A metal and ligand-free protocol has been developed for the synthesis of quinazolin-4(3H)-ones in moderate to good yields from o-aminobenzamide and alkenes via a Bu4NI/TBHP-mediated oxidative cleavage of the C=C bond in alkenes.
- Gollamudi, P.,Inkollu, B.,Karasala, B. K.,Vidavalur, S.
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p. 1446 - 1454
(2020/10/02)
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- Ortho -Naphthoquinone-catalyzed aerobic oxidation of amines to fused pyrimidin-4(3 H)-ones: A convergent synthetic route to bouchardatine and sildenafil
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A facile access to fused pyrimidin-4(3H)-one derivatives has been established by using the metal-free ortho-naphthoquinone-catalyzed aerobic cross-coupling reactions of amines. The utilization of two readily available amines allowed a direct coupling strategy to quinazolinone natural product, bouchardatine, as well as sildenafil (Viagra) in a highly convergent manner. This journal is
- Kim, Hun Young,Kim, Kyeongha,Oh, Kyungsoo
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p. 31101 - 31105
(2020/09/23)
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- Cobalt complexes of redox noninnocent azo-aromatic pincers. Isolation, characterization, and application as catalysts for the synthesis of quinazolin-4(3: H)-ones
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Herein we report the synthesis, characterization and catalytic application of three new cobalt(ii)-complexes of redox noninnocent arylazo ligands, 2-(phenylazo)-1,10-phenanthroline (L1a), 2-(4-chlorophenylazo)-1,10-phenanthroline (L1b) and 2,9-bis(phenyldiazo)-1,10-phenanthroline (L2) respectively. The reaction of L1a with CoIICl2·6H2O produced a μ-dichloro bridged binuclear cobalt(ii)-complex [CoII2(L1a)2Cl2] (1a) while the same reaction when carried out with 2-(4-chlorophenyl)azo-1,10-phenanthroline (L1b) and 2,9-bis(phenyldiazo)-1,10-phenanthroline (L2) ligands produced two new mononuclear five-coordinate cobalt(ii)-complexes 1b and 2 respectively. In complex 1a and 1b, the ligands L1a and L1b are coordinated to the cobalt(ii)-center in a tridentate mode utilizing all of its nitrogen donor sites while in complex 2 one of the azo-donor sites of the ligand L2 remain pendant. All these complexes were characterized using available spectroscopic techniques and DFT studies. We further explored the potential of these complexes as catalysts for the synthesis of pharmaceutically important organic compounds via the functionalization of alcohols. A variety of substituted quinazolin-4(3H)-ones were synthesized under aerobic conditions via the coupling of alcohols and 2-aminobenzamide using 1b as the catalyst. Mechanistic investigations revealed that both cobalt and the arylazo scaffold act synergistically during catalysis. This journal is
- Das, Siuli,Mandal, Sutanuva,Mondal, Rakesh,Paul, Nanda D.,Sinha, Suman
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supporting information
p. 8448 - 8459
(2020/07/10)
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- Synergistic catalysis on Fe-N: X sites and Fe nanoparticles for efficient synthesis of quinolines and quinazolinones via oxidative coupling of amines and aldehydes
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In this paper, we developed a reusable heterogeneous non-precious iron nanocomposite comprising metallic Fe-Fe3C nanoparticles and Fe-Nx sites on N-doped porous carbon, which allows for highly efficient synthesis of quinolines and quinazolinones via oxidative coupling of amines and aldehydes using H2O2 as the oxidant in aqueous solution under mild conditions. A set of quinazolines and quinazolinones were synthesized in high yields with a broad substrate scope and good tolerance of functional groups. Characterization and control experiments disclose that a synergistic effect between the metallic Fe nanoparticles and built-in Fe-Nx sites is primarily responsible for the outstanding catalytic performance. Furthermore, the iron nanocomposite could be readily recovered for successive use without appreciable loss in catalytic activity and selectivity. This work provides an expedient and sustainable method to access pharmaceutically relevant N-heterocycles.
- Ma, Zhiming,Song, Tao,Yuan, Youzhu,Yang, Yong
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p. 10283 - 10289
(2019/11/20)
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- Iridium(III)-Catalyzed Alkynylation of 2-(Hetero)arylquinazolin-4-one Scaffolds via C-H Bond Activation
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The directed C-H alkynylation of 2-(hetero)arylquinazolin-4-ones has been explored with the ethynylbenziodoxolone reagent TIPS-EBX employing an Ir(III) catalyst. Complementary conditions for either monoalkynylation or dialkynylation have been developed. Also demonstrated is the broad scope of this reaction and the compatibility of various functional groups such as ?F, ?Cl, ?Br, ?CF3, ?OMe, ?NO2, and alkyl, etc.
- Rohokale, Rajendra S.,Kalshetti, Rupali G.,Ramana, Chepuri V.
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supporting information
p. 2951 - 2961
(2019/02/26)
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- Chemoselective Trifluoroethylation Reactions of Quinazolinones and Identification of Photostability
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Herein, we report chemoselective trifluoroethylation routes of unmasked 2-arylquinazolin-4(3H)-ones using mesityl(2,2,2-trifluoroethyl)iodonium triflate at room temperature. Homologous C-, O-, and N-functionalized subclasses are accessed in a straightforward manner with a wide substrate scope. These chemoselective branching events are driven by Pd-catalyzed ortho-selective C-H activation at the pendant aryl ring and base-promoted reactivity modulation of the amide group, leveraging the intrinsic directing capability and competing pronucleophilicity of the quinazolin-4(3H)-one framework. Furthermore, outstanding photostability of the quinazolin-4(3H)-one family associated with nonradiative decay is presented.
- Maiti, Saikat,Kim, Jaeshin,Park, Jae-Heon,Nam, Dongsik,Lee, Jae Bin,Kim, Ye-Jin,Kee, Jung-Min,Seo, Jeong Kon,Myung, Kyungjae,Rohde, Jan-Uwe,Choe, Wonyoung,Kwon, Oh-Hoon,Hong, Sung You
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supporting information
p. 6737 - 6751
(2019/06/04)
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- Iron-catalyzed one-pot sequential transformations: Synthesis of quinazolinones via oxidative Csp3–H bond activation using a new metal-organic framework as catalyst
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A new mixed-linker iron-based MOF VNU-21 [Fe3(BTC)(EDB)2·12.27H2O] was synthesized via mixed-linker synthetic strategy using 1,3,5-benzenetricarboxylic acid, 4,4′-ethynylenedibenzoic acid, and FeCl2. The VNU-21 was consequently used as a recyclable heterogeneous catalyst in the one-pot synthesis of quinazolinones via two steps under oxygen atmosphere. The synthetic scheme involved iron-catalyzed oxidative Csp3–H bond activation to achieve decarboxylation of phenylacetic acids, and succeeding metal-free oxidative cyclization with 2-aminobenzamides. The VNU-21 was more effective than a series of heterogeneous and homogeneous catalysts. It was possible to reutilize the iron-based framework without a considerable deterioration in catalytic performance. To our best knowledge, this one-pot synthesis of quinazolinones was not previously performed using a recyclable catalyst.
- To, Tuong A.,Vo, Yen H.,Nguyen, Hue T.T.,Ha, Phuong T.M.,Doan, Son H.,Doan, Tan L.H.,Li, Shuang,Le, Ha V.,Tu, Thach N.,Phan, Nam T.S.
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- Synthesis, Crystal Structure, and Agricultural Antimicrobial Evaluation of Novel Quinazoline Thioether Derivatives Incorporating the 1,2,4-Triazolo[4,3- a]pyridine Moiety
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A total of 22 quinazoline thioether derivatives incorporating a 1,2,4-triazolo[4,3-a]pyridine moiety were designed, synthesized, and evaluated as antimicrobial agents in agriculture. Among these compounds, the chemical structure of compound 6l was further confirmed via single-crystal X-ray diffraction analysis. The bioassay results revealed that some of the compounds possessed noticeable in vitro antibacterial activities against the tested phytopathogenic bacteria. For example, compounds 6b and 6g had EC50 values as low as 10.0 and 24.7 μg/mL against Xanthomonas axonopodis pv. citri (Xac), respectively, which were significantly better than that of the commercial agrobactericide bismerthiazol (56.9 μg/mL). Particularly, compound 6b was also found to be capable of suppressing the pathogenic bacterium Xanthomonas oryzae pv. oryzae (Xoo) approximately 12-fold more potent than control bismerthiazol, in terms of their EC50 values (7.2 versus 89.8 μg/mL). Importantly, the most active compound 6b turned out to be one with the highest hydrophilicity and the lowest molecular weight within the series. In vivo bioassays further showed the application prospect of 6b as a promising plant bactericide for controlling Xoo. Additionally, in vitro antifungal activities of these compounds were also evaluated at the concentration of 50 μg/mL. Overall, the present study demonstrated the potential of 1,2,4-triazolo[4,3-a]pyridine-bearing quinazoline thioether derivatives as efficient agricultural antibacterial agents for crop protection.
- Fan, Zhijiang,Shi, Jun,Luo, Na,Ding, Muhan,Bao, Xiaoping
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p. 11598 - 11606
(2019/10/19)
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- Copper-mediated synthesis of quinazolin-4(3: H)-ones from N-(quinolin-8-yl)benzamide and amidine hydrochlorides
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An efficient copper-mediated tandem C(sp2)-H amination to provide quinazolinones from N-(quinolin-8-yl)benzamide and amidine hydrochlorides has been developed. It can afford rather complex products in a single step synthesis from easily availab
- Ban, Zihui,Cui, Xinfeng,Hu, Fangpeng,Lu, Guoqiang,Luo, Nan,Huang, Guosheng
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p. 12963 - 12966
(2019/08/28)
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- Discovery of Quinazolin-4(3 H)-ones as NLRP3 Inflammasome Inhibitors: Computational Design, Metal-Free Synthesis, and in Vitro Biological Evaluation
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NLRP3 inflammasome is an important therapeutic target for a number of human diseases. Herein, computationally designed series of quinazolin-4(3H)-ones were synthesized using iodine-catalyzed coupling of arylalkynes (or styrenes) with O-aminobenzamides. The key event in this transformation involves the oxidative cleavage of the C-C triple/double bond and the release of formaldehyde. The reaction relies on the C-N bond formation along with the C-C bond cleavage under metal-free conditions. The nitro-substituted quinazolin-4(3H)-one 2k inhibited NLRP3 inflammasome (IC50 5 μM) via the suppression of IL-1β release from ATP-stimulated J774A.1 cells.
- Abdullaha, Mohd,Mohammed, Shabber,Ali, Mehboob,Kumar, Ajay,Vishwakarma, Ram A.,Bharate, Sandip B.
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p. 5129 - 5140
(2019/04/16)
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- Efficient Synthesis of Quinazolinones by Transition-Metal-Free Direct Aerobic Oxidative Cascade Annulation of Alcohols with o-Aminoarylnitriles
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A mild and atom-economic method was developed for direct and efficient synthesis of quinazolinones through a transition-metal-free aerobic oxidative cascade annulation reaction of widely available o-aminoarylnitriles and alcohols. Air could be employed as an effective oxidant under mild conditions, generating water as the only byproduct. Possibly owing to the “cesium effect”, the water-soluble base CsOH was found to be crucial in all key steps of the reaction mechanism. Because a wide range of substrates can be used to prepare substituted quinazolinones without contamination by transition-metal residues, this method may be of interest for application in pharmaceutical synthesis. Possible reaction paths were also proposed according to control reactions.
- Wang, Qi,Lv, Miao,Liu, Jianping,Li, Yang,Xu, Qing,Zhang, Xu,Cao, Hongen
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p. 3043 - 3048
(2019/03/17)
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- A quinazolinone of heterocyclic compound synthetic method
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The invention discloses a quinazolinone of heterocyclic compound synthetic method. In under the action of the water-soluble alkali using air as the oxidizing agent, and ortho-amino alcohol oxidation fragrant nitrile compound - cyclized - oxidation of high efficiency series reaction one-step preparation quinazolinone of heterocyclic compound synthetic method. This method does not need the use of expensive transition metal catalyst and ligand, but the use of water-soluble alkali as promoter, the alkali can be removed by water washing mode is convenient, so product transition metal-free residue, is suitable as a pharmaceutical preparation of the precursor, the method condition is simple, easy to operate, low requirement for the device, and can utilizes air as economic security green oxidizing agent, water-soluble alkali as promoter, the only by-product is water, atom economical high, has a certain research and industrial application prospect.
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Paragraph 0059-0062
(2019/07/01)
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- Metal-Ligand Cooperative Approach to Achieve Dehydrogenative Functionalization of Alcohols to Quinolines and Quinazolin-4(3 H)-ones under Mild Aerobic Conditions
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A simple metal-ligand cooperative approach for the dehydrogenative functionalization of alcohols to various substituted quinolines and quinazolin-4(3H)-ones under relatively mild reaction conditions (≤90 °C) is reported. Simple and easy-to-prepare air-stable Cu(II) complexes featuring redox-active azo-aromatic scaffolds, 2-arylazo-(1,10-phenanthroline) (L1,2), are used as catalyst. A wide variety of substituted quinolines and quinazolin-4(3H)-ones were synthesized in moderate to good isolated yields via dehydrogenative coupling reactions of various inexpensive and easily available starting materials under aerobic conditions. A few control experiments and deuterium labeling studies were carried out to understand the mechanism of the dehydrogenative coupling reactions, which indicate that both copper and the coordinated azo-aromatic ligand participate in a cooperative manner during the catalytic cycle.
- Das, Siuli,Sinha, Suman,Samanta, Deepannita,Mondal, Rakesh,Chakraborty, Gargi,Branda?, Paula,Paul, Nanda D.
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p. 10160 - 10171
(2019/08/20)
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- A in ammonia water condition of microwave halo benzoic acid synthesis method of the quinazoline compounds
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The invention discloses a in ammonia water condition of microwave halo benzoic acid synthetic quinazoline compounds of the method, the use of palladium chloride to serve as the catalyst, in ammonia water under the microwave heating condition, neighbouring halogen benzoic acid generated by the reaction with the isocyanate of the quinazoline compounds of the method, the invention an environment-friendly, the operation is simple, cheap and safe, efficient process for producing quinazoline compounds of the method. Compared with the prior art, this method not only can be applied to a large number of functional groups, the productive rate is high, few by-products, and the operation is simple, safe, low cost, environmental protection.
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Paragraph 0017; 0024
(2019/02/13)
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- Method for synthesizing quinazoline and quinazolinone compounds
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The invention discloses a method for synthesizing quinazoline and quinazolinone compounds by oxidative coupling dehydrogenation with a nitrogen-doped hierarchical porous biomass basic carbon materialsupported catalyst. The method comprises the steps of adding 2-aminobenzylamine, 2-aminobenzamide, a formaldehyde compound R-CHO, the supported catalyst, a mixed solvent of water and tetrahydrofuran and hydrogen peroxide under a closed reaction condition, reacting at 60-140 DEG C for 6-24 hours, cooling to room temperature, filtering a reaction solution, and obtaining the quinazoline compound or the quinazolinone compound by silica gel column chromatography. The method adopts a low-cost metallic iron nanocatalyst through a 'one-pot' series reaction which is a green synthetic chemical strategy.Compared with a previous noble metal catalyst system, the reaction system is simple in operation, mild in condition and low in cost, and is favorable for large-scale production and industrial application.
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Paragraph 0050-0052; 0055
(2019/06/12)
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- A in the aqueous phase under microwave conditions using halogenated benzamide fast synthesis of quinazoline compounds of the method
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The invention discloses a in the aqueous phase under microwave conditions using halogenated benzamide fast synthesis of quinazoline compounds of the method, the use of palladium chloride to serve as the catalyst, in water under microwave heating conditions, neighbouring halogen benzamide with an isocyanate reaction to produce the quinazoline compounds of the method, the invention an environment-friendly, the operation is simple, cheap and safe, efficient process for producing quinazoline compounds of the method. Compared with the prior art, this method not only can be applied to a large number of functional groups, the productive rate is high, few by-products, and the operation is simple, safe, low cost, environmental protection.
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Paragraph 0015; 0022
(2019/02/13)
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- The mechanochemical synthesis of quinazolin-4(3H)-ones by controlling the reactivity of IBX
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Performing any synthesis using several arylamines and hypervalent iodine(V) reagents by direct mixing is unrealistic because of the high exothermic reaction or explosion. Herein we demonstrate, when anilines were substituted with an amide group at the orthoposition, successful chemical reactions could be performed due to intramolecular control. At maximum contact of the reacting substances, i.e., under solvent-free mechanochemical conditions, 2-aminobenzamides, aryl-, alkylaldehydes and the iodine(V) reagent o-iodoxybenzoic acid (IBX) led to substituted quinazolin-4(3H)-one derivatives in fair yields.
- Alam, Md Toufique,Maiti, Saikat,Mal, Prasenjit
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supporting information
p. 2396 - 2403
(2018/10/15)
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- Synthesis, in silico pharmacokinetic profile and anti-cholinesterase activity of quinazolin-4(3h)-one derivatives
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We have carried out synthesis and biological evaluation of various quinazolin-4(3H)-one derivatives as potent cholinesterase (AChE/BChE) inhibitors. In vitro assay results revealed that all compounds exhibited inhibitory activity against both cholinesterase enzymes (AChE and BChE) and in few cases this activity was comparable to that of standard galantamine drug. Among all, the compounds 3j with 3-methoxy-4- hydroxy groups attached to phenyl ring at C-2 position showed the highest inhibition activity with IC50 values of 4.2±0.13 μM and 12.7±1.44 μM for AChE and BChE, respectively. The compound 3c with chloro group at para position of the phenyl ring was found to be the second most potent cholinesterase inhibitor, displaying an IC50 value of 6.1±1.06 μM (AChE) and 13.8±0.74 μM (BChE). Preliminary in silico pharmacokinetic studies showed that, with the exception of a few compounds, all others have a good pharmacokinetic profile. Analysis of molecular descriptors and drug likeliness properties by using the tool Molinspiration server showed that all synthesized compounds are in good agreement with Lipinski Rules of five. The synthesized compounds can be used as structural foundation for the preparation of new potent cholinesterase inhibitors.
- Sarfraz, Muhammad,Sultana, Nargis,Tariq, Muhammad I.
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p. 1035 - 1041
(2019/04/05)
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- Method for synthesizing 2-phenyl quinazolinone compound from diphenyl acetylene compound as raw material
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The invention discloses a method for synthesizing a 2-phenyl quinazolinone compound from a diphenyl acetylene compound as raw material. The method comprises the following step: under coactions of a palladium catalyst, ligand and oxygen, enabling a diphenyl acetylene compound and 2-aminobenzene formamide as raw materials to react, thereby obtaining the 2-phenyl quinazolinone compound, wherein the reaction temperature is 60-110 DEG C; the reaction equation is as shown in the specification, in the formula, R is hydrogen, fluorine, chlorine, bromine, methyl, trifluoromethyl, nitryl or methoxyl. The method has the beneficial effects that the raw material, namely the diphenyl acetylene compound, is cheap and easy to obtain, so that the method is relatively economic; the preparation process is simple and convenient to operate, and the obtained product is easy to treat and applicable to large-scale industrial production; no high temperature or high pressure is needed, and reaction conditions are gentle; the reaction time is short, the reaction is efficient, the yield is high, and relatively high reaction efficiency can be achieved after the reaction is amplified.
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Paragraph 0077-0079
(2018/07/06)
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- Metal-free oxidative cyclization of 2-amino-benzamides, 2-aminobenzenesulfonamide or 2-(aminomethyl)anilines with primary alcohols for the synthesis of quinazolinones and their analogues
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A general metal-free oxidative cyclization process has been developed for the synthesis of quinazolinones, benzothiadiazines and quinazolines. By this protocol, a range of substituted 2-aminobenzamides, 2-aminobenzenesulfonamide and 2-(aminomethyl)anilines react with various alcohols, leading to the desired annulated products smoothly. This protocol features many advantages as broad substrate scope, mild reaction conditions, low environmental pollution, high atom-economy and good to excellent yields.
- Sun, Jinwei,Tao, Tao,Xu, Dan,Cao, Hui,Kong, Qinggang,Wang, Xinyu,Liu, Yun,Zhao, Jianglin,Wang, Yi,Pan, Yi
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p. 2099 - 2102
(2018/05/04)
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- Quinazoline derivatives as selective CYP1B1 inhibitors
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CYP1B1 is implicated to have a role in the development of breast, ovarian, renal, skin and lung carcinomas. It has been suggested that identification of potent and specific CYP1B1 inhibitors can lead to a novel treatment of cancer. Flavonoids have a compact rigid skeleton which fit precisely within the binding cavity of CYP1B1. Systematic isosteric replacement of flavonoid ‘O’ atom with ‘N’ atom led to the prediction that a ‘quinazoline’ scaffold could be the basis for designing potential CYP1B1 inhibitors. A total of 20 quinazoline analogs were synthesized and screened for CYP1B1 and CYP1A1 inhibition in Sacchrosomes. IC50 determinations of six compounds with capability of inhibiting CYP1B1 identified quinazolines 5c and 5h as the best candidates for CYP1B1 inhibition, with IC50 values in the nM range. Further selectivity studies with homologous CYPs, belonging to the CYP1, CYP2 and CYP3 family of enzymes, showed that the compounds are likely to be free from critical drug-drug interaction liability. Molecular modelling studies were performed to rationalize the observed enzymatic inhibitions. Further biological studies in live yeast and human cells, harboring CYP1A1 and CYP1B1 enzymes, have illustrated the most potent compounds' cellular permeability and capability of potently inhibiting CYP1B1 enzyme expressed within live cells.
- Mohd Siddique, Mohd Usman,McCann, Glen J.P.,Sonawane, Vinay R.,Horley, Neill,Gatchie, Linda,Joshi, Prashant,Bharate, Sandip B.,Jayaprakash, Venkatesan,Sinha, Barij N.,Chaudhuri, Bhabatosh
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p. 320 - 327
(2017/03/10)
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- Method for synthesis of quinazolinone derivative
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The invention discloses a method for synthesis of quinazolinone; the method comprises the steps of starting from o-aminobenzamide, taking water as a solvent, carrying out a ring-enlargement reaction with benzaldehyde, to generate a dihydroquinazolinone intermediate, and then under participation of a metal iridium complex, dehydrogenating to obtain the quinazolinone derivative; the reaction shows three remarkable advantages: 1) the reaction is carried out in an aqueous solution so as to reduce use of a large amount of organic solvents, and water is a cheap, green and safe solvent; 2) the reaction avoids use of highly toxic oxidants, so as to avoid damage to the environment; and 3) hydrogen gas generated from the reaction is a by-product, and has no environmental pollution; therefore, the reaction accords with the requirements of green chemistry, and has broad prospects for development.
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- Toluene and derivatives oxidation process for preparing 4 (3 H) - quinazolinone derivatives
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The invention relates to a method for preparing a 4(3H)-quinazolinone derivative through a toluene and derivative oxidation one-pot process. The method comprises the following steps: 1, reacting toluene or a derivative thereof with tert-butyl hydroperoxide at 60-80DEG C under the action of a first catalyst and sodium dihydrogen phosphate for 18-24h to obtain an aldehyde and alcohol mixture; 2, adding a Lewis acid catalyst, 2-aminobenzamide and a solvent into the aldehyde and alcohol mixture obtained in step 1, heating to 100-120DEG C, and reacting for 10-12h; and 3, cooling a solution obtained in step 2 to room temperature, filtering, washing, and drying to obtain the 4(3H)-quinazolinone derivative product. Compared with the prior art, the method provided by the invention has the advantages of concise reaction process, simple post-treatment, environmental protection, easily available raw materials, and high comprehensive yield.
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Paragraph 0054-0056; 0097-0101
(2017/09/26)
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- Efficient construction of N-heterocycles from benzylic ethers/alcohols and o-substituted anilines without using any catalyst and additive
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A novel method for the synthesis of N-heterocycles from benzylic ethers/alcohols with o-substituted aniline without using any catalyst and additive is developed. This protocol involves C-O bond cleavage of benzylic ethers, N-benzylation, and benzylic C-H amidation in one pot, the tandem oxidation-cyclization transformation may open the door for the easy generation of N-heterocycles.
- Chen, Xiuling,Qi, Hongxue,Wu, Shaofeng,Liu, Leng,Wen, Jianhui,Li, Wanxi,Guo, Fang,Bian, Yongjun,Li, Jun
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- Quinazolinone derivatives: Synthesis and comparison of inhibitory mechanisms on α-glucosidase
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In this study, eight quinazolinone derivatives were designed and synthesized. Their inhibitory activities on α-glucosidase were assessed in vitro. Two compounds: 2-(4-chlorophenyl)-quinazolin-4(3H)-one (CQ) and 2-(4-bromophenyl)-quinazolin-4(3H)-one (BQ) were found to be potent inhibitors of α-glucosidase with IC50values of 12.5 ± 0.1 μM and 15.6 ± 0.2 μM, respectively. Spectroscopy methods were performed to analyze the inhibitory mechanisms of both compounds on α-glucosidase. The results revealed that they reversibly inhibited α-glucosidase in a non-competitive manner. CQ and BQ could statically quench the fluorescence spectra by formation of an inhibitor-α-glucosidase complex. The interaction between CQ and α-glucosidase depended on hydrogen bonds, electrostatic and hydrophobic force, while the driving force of the binding between BQ and the enzyme was hydrophobic. The docking results showed that BQ was less active than CQ against α-glucosidase because of its weaker interaction with the enzyme. In brief, the quinazolinone derivatives identified in this work were potentially promising candidates for developing as novel anti-diabetic agents.
- Wei, Mankun,Chai, Wei-Ming,Wang, Rui,Yang, Qin,Deng, Zhihong,Peng, Yiyuan
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p. 1303 - 1308
(2017/02/10)
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- One-Pot Cascade Synthesis of Quinazolin-4(3H)-ones via Nickel-Catalyzed Dehydrogenative Coupling of o-Aminobenzamides with Alcohols
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In this paper, we report a general, efficient, and environmentally benign method for the one-pot cascade synthesis of quinazolin-4(3H)-ones via acceptorless dehydrogenative coupling of o-aminobenzamide with alcohols catalyzed by a simple Ni(II) catalyst, [Ni(MeTAA)], featuring a tetraaza macrocyclic ligand (tetramethyltetraaza[14]annulene (MeTAA)). A wide variety of substituted quinazolin-4(3H)-ones were synthesized in high yields starting from readily available benzyl alcohols and o-aminobenzamides. Several controlled reactions along with deuterium labeling studies were carried out to establish the acceptorless dehydrogenative nature of the reactions.
- Parua, Seuli,Das, Siuli,Sikari, Rina,Sinha, Suman,Paul, Nanda D.
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p. 7165 - 7175
(2017/07/26)
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- Preparation, characterization and catalytic application of nano-Fe3O4-DOPA-SnO2 having high TON and TOF for non-toxic and sustainable synthesis of dihydroquinazolinone derivatives
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A novel class of heterogeneous magnetically separable nano catalysts was designed by encapsulating SnO2 on nano-Fe3O4-DOPA. After the successful characterization of the synthesized catalyst by FT-IR, SEM, TEM, EDX, TGA, po
- Dam, Binoyargha,Patil, Ranjit A.,Ma, Yuan-Ron,Pal, Amarta Kumar
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p. 6553 - 6563
(2017/07/17)
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- Discovery of potent antiviral (HSV-1) quinazolinones and initial structure-activity relationship studies
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The discovery of antiviral activity of 2,3-disubstituted quinazolinones, prepared by a one-pot, three-component condensation of isatoic anhydride with amines and aldehydes, against Herpes Simplex Virus (HSV)-1 is reported. Sequential iterative synthesis/a
- Brown, Carla E.,Kong, Tiffany,McNulty, James,D'Aiuto, Leonardo,Williamson, Kelly,McClain, Lora,Piazza, Paolo,Nimgaonkar, Vishwajit L.
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supporting information
p. 4601 - 4605
(2017/09/27)
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