- Chains of edge-fused hydrogen-bonded R33(12) rings in N-phenyl-4-nitrophthalimide
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Molecules of the title compound [systematic name: 5-nitro-1H-isoindole-1, 3(2H)-dione], C14H8N2O4, adopt a conformation in the solid state which renders them chiral, and they are linked by three distinct types o
- Glidewell, Christopher,Low, John N.,Skakle, Janet M. S.,Wardell, James L.
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Read Online
- Ru-Catalyzed Selective C-H Bond Hydroxylation of Cyclic Imides
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We report on cyclic imides as weak directing groups for selective monohydroxylation reactions using ruthenium catalysis. Whereas acyclic amides are known to promote the hydroxylation of the C(sp2)-H bond enabling five-membered ring ruthenacycle intermediates, the cyclic imides studied herein enabled the hydroxylation of the C(sp2)-H bond via larger six-membered ruthenacycle intermediates. Furthermore, monohydroxylated products were exclusively obtained (even in the presence of overstoichiometric amounts of reagents), which was rationalized by the difficulty to accommodate coplanar intermediates once the first hydroxyl group was introduced into the substrate. The same reactivity was observed in the presence of palladium catalysts.
- Yuan, Yu-Chao,Bruneau, Christian,Dorcet, Vincent,Roisnel, Thierry,Gramage-Doria, Rafael
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p. 1898 - 1907
(2019/02/05)
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- Unmasking Amides: Ruthenium-Catalyzed Protodecarbonylation of N-Substituted Phthalimide Derivatives
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The unprecedented transformation of a wide range of synthetically appealing phthalimides into amides in a single-step operation has been achieved in high yields and short reaction times using a ruthenium catalyst. Mechanistic studies revealed a unique, homogeneous pathway involving five-membered ring opening and CO2 release with water being the source of protons.
- Yuan, Yu-Chao,Kamaraj, Raghu,Bruneau, Christian,Labasque, Thierry,Roisnel, Thierry,Gramage-Doria, Rafael
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supporting information
p. 6404 - 6407
(2017/12/08)
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- Synthetic method for N-substituted imide
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The invention provides a synthetic method for N-substituted imide. According to the method, aromatic ketone and amine are used as substrates, air or oxygen is used as an oxygen source, and cyclic imide is produced under liquid phase conditions under the action of a catalyst. The method is mild in conditions, high in oxidation efficiency and high in product yield; and since the method uses air or oxygen as the oxygen source, the method is economic and environment-friendly and has good application prospect.
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Paragraph 0016; 0022; 0023; 0024; 0025
(2017/04/20)
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- Design, synthesis and protection against pentylenetetrazole-induced seizure of N-aryl derivatives of the phthalimide pharmacophore
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A series of compounds including N-aryl substituents of phthalimide and 4-nitrophthalimide were synthesized and evaluated for their anticonvulsant properties. The in vivo screening data suggest that all the analogs have the ability to protect against pentylenetetrazole-induced seizures. These compounds exerted their maximal effects 30 min after administration. The most potent compound in both, tonic and clonic seizure was 1-naphthyl derivative (comp. 6), which was more active than the reference drug known as Phenytoin. Using an open pore model of the Na channel, these anticonvulsants were docked in the active site and examined in relation to the residues identified by mutagenesis as important for their binding energies. Docking studies revealed that all compounds (1-13) interacted mainly with residues II-S6 of NaV1.2 by making hydrogen bonds and additional hydrophobic interactions with domain I and II in the channel's inner pore.
- Davood, Asghar,Nematollahi, Alireza,Shafaroodi, Hamed,Shirazi, Mehrshad,Amini, Mohsen,Iman, Maryam
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p. 953 - 963,11
(2020/08/31)
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- Synthesis, anti-inflammatory activity and COX-1/COX-2 inhibition of novel substituted cyclic imides. Part 1: Molecular docking study
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A group of cyclic imides (1-13) was designed for evaluation as selective COX-2 inhibitors and investigated in vivo for their anti-inflammatory activities using carrageenan-induced rat paw edema model. Compounds 5b, 6b, 11b, 11c, 12b and 12c were proved to be potent COX-2 inhibitors with IC50 range of 0.1-1.0 μM. In vitro COX-1/COX-2 inhibition structure-activity studies identified compound 5b as a highly potent (IC50 = 0.1 μM), and an extremely selective [COX-2 (SI) = 400] comparable to celecoxib [COX-2 (SI) > 333.3], COX-2 inhibitor that showed superior anti-inflammatory activity (ED 50 = 104 mg/kg) relative to diclofenac (ED50 = 114 mg/kg). A Virtual screening was carried out through docking the designed compounds into the COX-2 binding site to predict if these compounds have analogous binding mode to the COX-2 inhibitors. Molecular modeling (docking) study showed that the CH3O substituents of 5b inserted deep inside the 2°-pocket of the COX-2 active site, where the O-atoms of such group underwent a H-bonding interaction with His90 (2.43, 2.83 ), Arg513 (2.89 ) and Tyr355 (3.34 ). Docking study of the synthesized compound 5b into the active site of COX-2 revealed a similar binding mode to SC-558, a selective COX-2 inhibitor.
- Abdel-Aziz, Alaa A.-M.,Eltahir, Kamal E.H.,Asiri, Yousif A.
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scheme or table
p. 1648 - 1655
(2011/05/06)
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- Intermolecular oxidative C-N bond formation under metal-free conditions: Control of chemoselectivity between aryl sp2 and benzylic sp 3 C-H bond imidation
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A new synthetic approach toward intermolecular oxidative C-N bond formation of arenes has been developed under transition-metal-free conditions. Complete control of chemoselectivity between aryl sp2 and benzylic sp 3 C-H bond imidation was achieved by the choice of nitrogen sources, representatively being phthalimide and dibenzenesulfonimide, respectively.
- Kim, Hyun Jin,Kim, Jiyu,Cho, Seung Hwan,Chang, Sukbok
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supporting information; experimental part
p. 16382 - 16385
(2011/12/13)
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- Metal-free intermolecular oxidative C-N bond formation via tandem C-H and N-H bond functionalization
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The development of a novel intermolecular oxidative amination reaction, a synthetic transformation that involves the simultaneous functionalization of both a N-H and C-H bond, is described. The process, which is mediated by an I(III) oxidant and contains no metal catalysts, provides a rapid and green method for synthesizing protected anilines from simple arenes and phthalimide. Mechanistic investigations indicate that the reaction proceeds via nucleophilic attack of the phthalimide on an aromatic radical cation, as opposed to the electrophilic aromatic amination that has been reported for other I(III) amination reactions. The application of this new reaction to the synthesis of a variety of substituted aniline derivatives is demonstrated.
- Kantak, Abhishek A.,Potavathri, Shathaverdhan,Barham, Rose A.,Romano, Kaitlyn M.,Deboef, Brenton
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supporting information; experimental part
p. 19960 - 19965
(2012/01/13)
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- Synthesis and anticonvulsant activity of some N-phenylphthalimides
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The anticonvulsant potential of a series of N-phenylphthalimide derivatives has been screened in subcutaneous pentylenetetrazole seizure (scPTZ) and maximal electroshock seizure (MES) tests. Intraperitoneal 4-amino-N-phenylphthalimides were the most potent agents against MES in mice. Referring to the N-(2,6-dimethylphenyl)phthalimide structure, the order of anticonvulsant activity appears to correspond to the phthalimide ring substitution pattern of 4-amino > 4-nitro > 4-methyl; H > 3-nitro; 3-amino. The 4-amino-N-(2-methylphenyl)phthalimide displays an anti-MES ED50 of 47.61 μmol/kg with a protective index (PI) of 4.2. Oral administration to rats of the compounds found to be active in mice showed that the 4-amino-N-(2,6-dimethylphenyl)phthalimide is the most potent anti-MES agent in rats, exhibiting an ED50 of 25.2 μmol/kg and a PI greater than 75. Regarding the nature of the 2 and 6 substituents of the N-phenyl ring, the anticonvulsant efficiencies may be ordered as follows: 2,6-dimethyl > 2-methyl > 2-ethyl > 2-ethyl-6-methyl > 2,6-diethyl > unsubstituted phenyl ring. N-Phenylphthalimide derivatives seem to have great potential as candidate anticonvulsant drugs.
- Bailleux,Vallee,Nuyts,Vamecq
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p. 1817 - 1821
(2007/10/02)
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