- Synthetic method 1-2 - benzisothiazol -3 -one compound (by machine translation)
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The invention discloses a synthetic method of 1-2 - benzisothiazol -3 -one compound, and belongs to the field of chemical synthesis. 2 - 1-benzisothiazol 2 -one compounds are synthesized through acid chlorination, amidation and cyclization reaction by using the sulfenyl-substituted benzoic acid extracted from BIT process -3 - waste water as a starting raw material. The method disclosed by the invention has the advantages of mild reaction conditions, simple and convenient operation, strong practicability, less waste water, high product purity and the like, and is suitable for large-scale industrial production. The technical scheme provided by the invention is resource utilization and preparation 1 of wastewater extract produced in BIT production, and a feasible method is provided for the 2 -benzisothiazol -3 -one compound. (by machine translation)
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- Design, synthesis and biological activity of selective hCAs inhibitors based on 2-(benzylsulfinyl)benzoic acid scaffold
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A large library of derivatives based on the scaffold of 2-(benzylsulfinyl)benzoic acid were synthesised and tested as atypical inhibitors against four different isoforms of human carbonic anhydrase (hCA I, II, IX and XII, EC 4.2.1.1). The exploration of the chemical space around the main functional groups led to the discovery of selective hCA IX inhibitors in the micromolar/nanomolar range, thus establishing robust structure-activity relationships within this versatile scaffold. HPLC separation of some selected chiral compounds and biological evaluation of the corresponding enantiomers was performed along with molecular modelling studies on the most active derivatives.
- Rotondi, Giulia,Guglielmi, Paolo,Carradori, Simone,Secci, Daniela,De Monte, Celeste,De Filippis, Barbara,Maccallini, Cristina,Amoroso, Rosa,Cirilli, Roberto,Akdemir, Atilla,Angeli, Andrea,Supuran, Claudiu T.
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p. 1400 - 1413
(2019/08/26)
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- Benzisothiazol-3-ones through a Metal-Free Intramolecular N–S Bond Formation
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The highly efficient synthesis of benzoisothiazol-3-ones from thiobenzamides has been described with good functional group compatibility and excellent yields. This work represents the first example of selectfluor-promoted N–S bond formation processes. This method provides a facile approach to access various important bioactive benzoisothiazol-3-ones.
- Yang, Ke,Zhang, Hao,Niu, Ben,Tang, Tiandi,Ge, Haibo
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supporting information
p. 5520 - 5523
(2018/10/26)
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- Discovering potent small molecule inhibitors of cyclophilin A using de novo drug design approach
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This work describes an integrated approach of de novo drug design, chemical synthesis, and bioassay for quick identification of a series of novel small molecule cyclophilin A (CypA) inhibitors (1-3). The activities of the two most potent CypA inhibitors (3h and 3i) are 2.59 and 1.52 nM, respectively, which are about 16 and 27 times more potent than that of cyclosporin A. This study clearly demonstrates the power of our de novo drug design strategy and the related program LigBuilder 2.0 in drug discovery.
- Ni, Shuaishuai,Yuan, Yaxia,Huang, Jin,Mao, Xiaona,Lv, Maosheng,Zhu, Jin,Shen, Xu,Pei, Jianfeng,Lai, Luhua,Jiang, Hualiang,Li, Jian
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supporting information; experimental part
p. 5295 - 5298
(2010/02/28)
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- N-cumyl benzamide, sulfonamide, and aryl O-carbamate directed metalation groups. Mild hydrolytic lability for facile manipulation of directed ortho metalation derived aromatics
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(Matrix Presented) N-Cumyl benzamide (2), sulfonamide (8), and O-carbamate (11) compounds undergo directed ortho metalation under standard conditions to give, after quench with a variety of electrophiles, the substituted products 3, 9, and 12, respectively. Regiospecific and convenient approaches to phthalimides (7), 1,2-benzisothiazole 1,1-dioxides (10b), and ortho-substituted phenols (13a) and salicylamides (13b) are thereby established The mild deprotection protocol for these new cumyl directed metalation groups (DMGs) suggests that they will supersede previous corresponding groups for synthetic anionic aromatic chemistry.
- Metallinos, Costa,Nerdinger, Sven,Snieckus, Victor
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p. 1183 - 1186
(2008/02/09)
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- Heteroatom-Directed Metalation. Lithiation of N-Propenylbenzamides and N-Propenyl-o-toluamides. Novel Routes to Ortho-Substituted Primary Benzamide Derivatives and N-Unsubstituted Isoquinolin-1(2H)-ones
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Reaction of N-propenylbenzamides 4 and 9, obtained by LDA-induced isomerization of the corresponding N-allylbenzamides, 1, 8, and 14, with 2 equiv of sec-butyllithium or tert-butyllithium at low temperature regiospecifically generates the highly reactive N,ortho-dilithiated species (e.g., 5 and 17).These dilithio species react avidly with a wide spectrum of electophilic reagents, including alky halides, giving adducts which on hydrolysis with warm 50percent aqueous acetic acid are converted into ortho-substituted primary benzamides in excellent yields.Ortho-lithiation of N-propenylbenzamides is thus formally equivalent to ortho-lithiation of primary benzamides themselves.The utility of this important, previously unknown, synthetic operation is enhanced by the well-known facility with which the primary amide moiety can be transformed into other useful functional groups, as exemplified by the synthesis of 2-methoxy-6-methylbenzoic acid (12) and 2-methoxy-6-methylbenzonitrile (13) from N-propenyl-2-methoxybenzamide (9).N-Propenyl-o-toluamide (7) undergoes regiospecific dilithiation on nitrogen and on the methyl group under conditions analogous to those used for the N-propenylbenzamides.These dilithio species react with DMF or "Weinreb type" amides to give condensation products which cyclize to N-propenylisoquinolin-1(2H)-ones under mildly acidic conditions.Removal of the N-propenyl moiety under more strongly acidic conditions provides N-unsubstituted isoquinolin-1(2H)-ones with high overall efficiency.This process is exemplified by the synthesis of isoquinolin-1(2H)-one (23) and its 3-n-butyl congener 26 from N-propenyl-2-methylbenzamide (7).
- Fisher, Lawrence E.,Muchowski, Joseph M.,Clark, Robin D.
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p. 2700 - 2705
(2007/10/02)
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