Day: April 2, 2022

Reference of 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine. The mechanism of aromatic electrophilic substitution of aromatic heterocycles is consistent with that of benzene. Compound: 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine, is researched, Molecular C34H22NO2P, CAS is 1265884-98-7, about Rhodium-catalyzed asymmetric arylative cyclization of meso-1,6-dienynes leading to enantioenriched cis-hydrobenzofurans. Author is He, Zhi-Tao; Tian, Bing; Fukui, Yuki; Tong, Xiaofeng; Tian, Ping; Lin, Guo-Qiang.

A tandem rhodium-catalyzed asym. arylative cyclization of cyclohexadienone-containing meso-1,6-dienynes is developed. A series of optically pure cis-hydrobenzofurans were obtained with high to excellent yields (80-99%) and excellent enantioselectivities (95-99% ee). The utility of this method was demonstrated by transforming the cyclization products to chiral frameworks of some natural products.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

In organic chemistry, atoms other than carbon and hydrogen are generally referred to as heteroatoms. The most common heteroatoms are nitrogen, oxygen and sulfur. Now I present to you an article called Synthesis of C5-Allylindoles through an Iridium-Catalyzed Asymmetric Allylic Substitution/Oxidation Reaction Sequence of N-Alkyl Indolines, published in 2021-05-07, which mentions a compound: 1265884-98-7, mainly applied to allylindoline preparation enantioselective DFT study; allylindole preparation enantioselective DFT study; alkyl indoline allylic alc tandem reaction iridium catalyst, Reference of 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine.

Iridium/Bronsted acid cooperative catalyzed asym. allylic substitution reactions at the C5 position of indolines I (R = Bn, PMB; R1 = 2-Me, 2-Ph, 2,3-(Me)2, etc.) have been reported for the first time. The highly efficient protocol allows rapid access to various C5-allylated products (R/S)-II (Ar = C6H5, 2-BrC6H4, 2-naphthyl, etc.) and III in good to high yields (48-97%) and enantioselectivities (82% to >99% ee) with wide functional group tolerance. The transformations allow not only the formation of C5-allylindoline derivatives II but also the synthesis of C5-allylindoles III in good yields and excellent stereoselectivities via an allylation/oxidation reaction sequence.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

The preparation of ester heterocycles mostly uses heteroatoms as nucleophilic sites, which are achieved by intramolecular substitution or addition reactions. Compound: 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine( cas:1265884-98-7 ) is researched.HPLC of Formula: 1265884-98-7.Sempere, Yeshua; Alfke, Jan L.; Roessler, Simon L.; Carreira, Erick M. published the article 《Morpholine Ketene Aminal as Amide Enolate Surrogate in Iridium-Catalyzed Asymmetric Allylic Alkylation》 about this compound( cas:1265884-98-7 ) in Angewandte Chemie, International Edition. Keywords: morpholine ketene aminal amide enolate surrogate asym allylic alkylation; iridium catalyzed asym allylic alkylation morpholine ketene aminal; alkylation; allylation; amides; enantioselectivity; iridium. Let’s learn more about this compound (cas:1265884-98-7).

Morpholine ketene aminal is employed in iridium-catalyzed asym. allylic alkylation reactions as a surrogate for amide enolates to prepare γ,δ-unsaturated β-substituted morpholine amides. Kinetic resolution or, alternatively, stereospecific substitution affords the corresponding products in high enantiomeric excess [e.g., (±)-I + II → (R)-III + (S)-I]. The utility of the products generated by this method has been showcased by their further elaboration into amines, ketones, or acyl silanes. A putative catalytic intermediate (η3-allyl)iridium(III) with achiral P,olefin-ligand was synthesized and characterized for the first time.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

Name: 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine, is researched, Molecular C34H22NO2P, CAS is 1265884-98-7, about Construction of Vicinal Quaternary Centers via Iridium-Catalyzed Asymmetric Allenylic Alkylation of Racemic Tertiary Alcohols. Author is Isomura, Mayuko; Petrone, David A.; Carreira, Erick M..

Enantioselective bond formation between sterically hindered fragments to furnish acyclic products with vicinal quaternary centers is a formidable challenge. We report a solution that involves cocatalysis between a chiral Ir-(phosphoramidite, olefin) complex and La(OTf)3. This robust catalytic system effects highly enantioconvergent and regioselective alkylation of racemic tertiary α-allenyl alcs. with tetrasubstituted silyl ketene acetals. The transformation displays broad functional group tolerance for both reaction components and allows efficient generation of β-allenyl ester products in good yield and with excellent enantioselectivity. Furthermore, both the allene and ester functionalities were leveraged to upgrade the structural complexity of the products via a series of stereoselective metal-catalyzed functionalization reactions.

This literature about this compound(1265884-98-7)Name: 5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepinehas given us a lot of inspiration, and I hope that the research on this compound(5-(11bR)-Dinaphtho[2,1-d:1′,2′-f][1,3,2]dioxaphosphepin-4-yl-5H-dibenz[b,f]azepine) can be further advanced. Maybe we can get more compounds in a similar way.

Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

Yang, Xuejiao; Yang, Bohao; Wang, Yuefei; Qi, Wei; Xing, Qiguo; Zhang, Lei; Liu, Xinyu; Hu, Qing; Su, Rongxin; He, Zhimin published the article 《In situ fabrication of multifunctional gold-amino acid superstructures based on self-assembly》. Keywords: gold amino acid superstructure insitu selfassembly.They researched the compound: H-Trp-OMe.HCl( cas:7524-52-9 ).Application In Synthesis of H-Trp-OMe.HCl. Aromatic heterocyclic compounds can be divided into two categories: single heterocyclic and fused heterocyclic. In addition, there is a lot of other information about this compound (cas:7524-52-9) here.

A facial strategy to construct multifunctional gold-amino acid superstructures is reported. The ferrocene-tryptophan conjugate could self-assemble into three-dimensional microflowers. What’s more, gold nanoparticles could be biomineralized on the surface of the microflowers, achieving gold-amino acid superstructures. The formed superstructures exhibited significant photothermal effects and catalytic activity.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

Most of the natural products isolated at present are heterocyclic compounds, so heterocyclic compounds occupy an important position in the research of organic chemistry. A compound: 455-70-9, is researched, SMILESS is COC(=O)C1=CC(F)=CN=C1, Molecular C7H6FNO2Journal, Article, Chemical Communications (Cambridge, United Kingdom) called A predictive model for additions to N-alkyl pyridiniums, Author is Knight, Brian J.; Tolchin, Zachary A.; Smith, Joel M., the main research direction is pyridine Grignard methyl triflate regioselective dearomative addition; dihydropyridine preparation.Product Details of 455-70-9.

Disclosed in this communication is a thorough study on the dearomative addition of organomagnesium nucleophiles to N-alkyl pyridinium electrophiles. The regiochem. outcomes have observable and predictable trends associated with the substituent patterns on the pyridinium electrophile. Often, the substituent effects can be either additive, giving high selectivities, or ablative, giving competing outcomes. Addnl., the nature of the organometallic nucleophilic component was also investigated for its role in the regioselective outcome. The effects of either reactive component are important to both the overall reactivity and site of nucleophilic addition The utility of these observed trends is demonstrated in a concise, dearomative synthesis of a tricyclic compound shown to have insecticidal activity.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

The chemical properties of alicyclic heterocycles are similar to those of the corresponding chain compounds. Compound: H-Trp-OMe.HCl, is researched, Molecular C12H15ClN2O2, CAS is 7524-52-9, about Discovery of a Potent Kelch-Like ECH-Associated Protein 1-Nuclear Factor Erythroid 2-Related Factor 2 (Keap1-Nrf2) Protein-Protein Interaction Inhibitor with Natural Proline Structure as a Cytoprotective Agent against Acetaminophen-Induced Hepatotoxicity, the main research direction is Keap1 Nrf2 interaction inhibitor preparation cytoprotective acetaminophen hepatotoxicity.Computed Properties of C12H15ClN2O2.

The transcription factor Nrf2 is a key regulator of cytoprotective system, and enhancing Nrf2 activity can protect cells from various insults and threats. Directly disrupting Keap1-Nrf2 protein-protein interactions has been regarded as a promising way to activate Nrf2. We reported here the first identification of amino acids as preferred substituents to design potent Keap1-Nrf2 inhibitors. Comprehensive structure-activity anal. identified Pro as a preferred substituent, obtaining a potent inhibitor 35 with an IC50 of 43 nM in the competitive fluoresce polarization (FP) assay and a Kd value of 53.7 nM for Keap1 protein in the isothermal titration calorimetry (ITC) assay. The Pro analog 35 exhibited tight and prolonged Keap1 binding in vitro and in cells, and treatment with 35 activated Nrf2-regulated cytoprotective response and antagonized acetaminophen-induced liver injury both in cellular and in vivo models. This work not only provides a useful tool to further explore the therapeutic potential of Keap1-Nrf2 inhibition but also enriches the diversity of chem. structures suitable for the Keap1-Nrf2 interface.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Fu, Ze researched the compound: 4-Methyl-1-phenyl-2,3-dihydro-1H-phosphole 1-oxide( cas:707-61-9 ).Category: dioxole.They published the article 《Synthesis of phenylphosphine oxide catalyst》 about this compound( cas:707-61-9 ) in Hecheng Xiangjiao Gongye. Keywords: phenylphosphine oxide catalyst; phosphorus trichloride reaction benzene isoprene. We’ll tell you more about this compound (cas:707-61-9).

The tech. process and conditions of preparing the high efficiency phenylphosphine oxide catalyst were studied by using phosphorus trichloride, benzene and isoprene as raw materials. The excess phosphorus trichloride reacting with benzene could increase the yield of the intermediate product dichlorophenylphosphine.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

So far, in addition to halogen atoms, other non-metallic atoms can become part of the aromatic heterocycle, and the target ring system is still aromatic.Wang, Dong; Wang, Zhentao; Liu, Zhenlin; Huang, Mindong; Hu, Jianyong; Yu, Peng researched the compound: Methyl 5-fluoro-3-pyridinecarboxylate( cas:455-70-9 ).Computed Properties of C7H6FNO2.They published the article 《Strategic C-C Bond-Forming Dearomatization of Pyridines and Quinolines》 about this compound( cas:455-70-9 ) in Organic Letters. Keywords: regioselective diastereoselective tetrahydropyridine tetrahydroquinoline preparation one pot aromatization; dearomative double nucleophilic addition pyridine quinoline. We’ll tell you more about this compound (cas:455-70-9).

A one-pot protocol for the dearomative double nucleophilic addition to pyridines and quinolines, providing convenient, regioselective and diastereoselective access to tetrahydropyridines and tetrahydroquinolines under reductant-free conditions is described. This method also offers a new strategy for the general dearomatization of nitrogen heteroaromatics

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem

Recommanded Product: 455-70-9. The protonation of heteroatoms in aromatic heterocycles can be divided into two categories: lone pairs of electrons are in the aromatic ring conjugated system; and lone pairs of electrons do not participate. Compound: Methyl 5-fluoro-3-pyridinecarboxylate, is researched, Molecular C7H6FNO2, CAS is 455-70-9, about Preparation of 5-fluoronicotinic acid and 5-fluoronicotinamide. Author is Hawkins, G. F.; Roe, Arthur.

2-Amino-3-methylpyridine (50 g.) in 240 ml. concentrated H2SO4, cooled to 5°, was slowly treated with a mixture of 35 ml. each of concentrated H2SO4 and concentrated HNO3, with the temperature kept below 10°, and allowed to warm up to 30° overnight. [If the solution was then poured over cracked ice, neutralized, and filtered, the nitro derivative (I) could be obtained, but it was preferred not to isolate I.] To the solution, kept below 40° and stirred, was slowly added 35 ml. concentrated HNO3, approx. 50 ml. of the mixture (A) added to 100 ml. H2O, and heated to 120°. The balance of (A) was added in 50-ml. portions when gas evolution ceased, the mixture was cooled by the addition of 1 kg. ice, and the precipitate filtered off (46 g.); an addnl. 5 g. could be obtained by addition of 10 g. NaNO2 to the filtrate, and another 6 g. was obtainable by neutralizing the filtrate from the NaNO2 treatment. The combined products were dissolved in the min. amount of dilute NaOH, stirred with C, and filtered, giving 51 g. (71.5%) of fairly pure 2-hydroxy-3-methyl-5-nitropyridine (II), greenish yellow, m. 228.5-9.5°, after crystallizations from H2O and decolorization. II was also prepared by adding 15 ml. fuming HNO3 and 20 ml. concentrated H2SO4 to 20 g. 2-hydroxy-3-methylpyridine in 40 ml. concentrated H2SO4 at a temperature below 40°, allowing to warm up to 50° during 2.5 hrs., pouring over cracked ice, and filtering, washing, and drying the precipitate over P2O5, giving 13.5 g. cream-colored II, m. 228.5-9.5°. II (83 g.) and 400 ml. POCl3 were refluxed 6 hrs., the excess POCl3 distilled off, the residue poured over cracked ice, filtered, the filtrate neutralized with NaOH solution, extracted twice with 100-ml. portions of Et2O, the precipitate also dissolved in the Et2O solution, a lower liquid layer removed, and the solution dried over CaO; distillation yielded 81.5 g. (87.6%) 2-chloro-3-methyl-5-nitropyridine (III), m. 47-8°, b18 145.5°. III was also prepared from I by diazotization in concentrated HCl, in 32% yield with II as a by-product. To 24 g. III was added 100 ml. AcOH, 14 g. AcONa, and 5 g. Pd-charcoal catalyst, the mixture reduced with H at 15-25 lb. pressure (even after heating, only 80% of the theoretical H was absorbed), the hot solution filtered, evaporated to dryness, concentrated NaOH added, the mixture heated 30 min., extracted, after cooling, with three 75-g. portions of Et2O, and the extracts dried over NaOH and distilled, giving 9 g. (51%) 3-methyl-5-aminopyridine (IV), m. 57-9°, b21 153°. To 12 g. IV in 50 ml. 42% HBF4 and 75 ml. EtOH at -10° was added EtONO, at a temperature kept below -5°, until no more precipitation occurred, the solution poured into 75 ml. absolute EtOH and 100 ml. Et2O, at -70°, the solution filtered, the precipitate washed twice with cold absolute EtOH, twice with cold absolute Et2O, and twice with cold, dry petr. ether (30-60°), placed, with 75 ml. cold, dry petr. ether, in a 500-ml. flask with a condenser, the solution warmed slightly to initiate decomposition, the reaction then controlled by cooling, the mixture refluxed 0.5 hr., the solvent decanted, the petr. ether washed twice with 50 ml. dilute HCl, the extracts returned to the flask, warmed to remove petr. ether, made slightly alk., and distilled, giving, after drying, 7.4 g. (60%) 3-methyl-5-fluoropyridine (V). To 8.5 g. V and 600 ml. H2O in a flask with a reflux condenser was added 8 g. KMnO4, then more in small amounts as it reacted, to a total of 26 g. in 3 hrs., unreacted V removed by distillation, the residue filtered off hot, washed with hot H2O, the filtrate and washings evaporated to 150 ml., HCl added to complete precipitation, the solid filtered off, the filtrate evaporated to 50 ml., and more HCl added, precipitating more solid, and the combined precipitates (6.4 g.; 77.3%), recrystallized from H2O, giving 5-fluoronicotinic acid (VI), m. 195-7°. VI (3 g.) in 50 ml. SOCl2 was refluxed 12 hrs. and the excess solvent distilled off in vacuo, giving 1.5 ml. of liquid, b18 82°; this (acid chloride) with anhydrous NH3 gave, after 2 recrystallizations from H2O, 1.1 g. 5-fluoronicotinamide (VII), m. 173-5°. From 45 g. 3-bromoquinoline by the method of Graf, et al. (C.A. 28, 269.7) (oxidation and heating), was obtained 16.5 g. 5-bromonicotinic acid (VIII). VIII (14.5 g.), by the method of Meyer and G. (C.A. 23, 837), gave 6.5 g. 5-aminonicotinic acid (IX). IX (6.5 g.) with CH2N2 gave 3 g. Me 5-aminonicotinate (X), m. 135-7°. VII could not be prepared by diazotization of IX or X (the modified Schiemann reaction (R. and H., C.A. 42, 171e)). However, 2.7 g. X in 50 ml. 95% EtOH was treated with 25 ml. of 30% fluosilicic acid, the precipitated salt filtered off and suspended in 50 ml. AcOH, then EtONO passed in, at 32° or lower, until the salt dissolved, the solution cooled in ice, and 75 ml. dry Et2O added to precipitate the diazonium fluosilicate, which, when filtered off, washed once with absolute EtOH and twice with absolute Et2O in a CO2 atm., and dried over P2O5, m. 89° (violent decomposition). The salt suspended in dry PhMe, heated until it decomposed, and the PhMe layer distilled, gave 0.4 g. Me 5-fluoronicotinate (XI), b26 101-2°, m. 46-50°. XI in 50% MeOH with NH3 gave VII, m. 173-5°. Oxidation of 3-fluoroquinoline with KMnO4 or with concentrated HNO3 did not give VI.

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Reference:
1,3-Benzodioxole – Wikipedia,
Dioxole | C3H4O2 – PubChem