53902-59-3

Upstream product

• 2258-42-6 formyl acetic anhydride 
• 1885-29-6 anthranilic acid nitrile 
• 10113-38-9 N-(2-bromophenyl)formamide 
• 544-92-3 copper(I) cyanide 
• 66-25-1 hexanal 
• 64-18-6 formic acid 
• 68-12-2 N,N-dimethyl-formamide 
• 122-51-0 orthoformic acid triethyl ester 
• 1331850-85-1 N-formylindazole 
• 1242952-11-9 2-(cyanomethyleneamino)benzonitrile 
• 603-35-0 triphenylphosphine 

Downstream Products

• 16347-95-8 4-methoxyquinazoline 
• 107288-89-1 2,4-diphenyl-1,2-dihydroquinazoline 
• 91-56-5 indole-2,3-dione 
• 81431-98-3 2-cyanophenylisothiocyanate 
• 164729-64-0 N-(2-cyanophenyl)chloromethanoimidoyl chloride 
• 130408-02-5 2-phenyl<1,2,4>triazolo<1,5-c>quinazoline 
• 31688-46-7 3,5-diphenyl[1,2,4]triazolo[4,3-c]quinazoline 

Relevant academic research and scientific papers

Formation of a 4-quinazolone on attempting to synthesize a symmetrical amedine of anthranilonitrile. Crystal structure of 3-(2-cyanophenyl)-4-quinazolone

Attempts to synthesize a sym-diarylformamidine by the reaction of anthranilonitrile and its N-formyl derivative led to the formation of 3-(2-cyanophenyl)-4-quinazolone. The structure of the substance obtained was confirmed by x-ray analysis. 1998 Plenum P

Efficient: N -formylation of primary aromatic amines using novel solid acid magnetic nanocatalyst

Sulfonic acid functionalized over biguanidine fabricated silica-coated heterogeneous magnetic nanoparticles (NP?SO3H) have been synthesized, well characterized and explored for the first time, as an efficient and recyclable catalyst for N-formylation of primary amines under mild reaction conditions. Exploiting the magnetic nature of Fe3O4, the prepared catalyst was readily recovered from the reaction mixture via an external magnet. The catalyst can be reused for up to six cycles without any substantial loss of catalytic activity. The cost effectiveness, simple methodology, wide substrate tolerance, excellent yield and easy work-up are the additional advantages of present catalytic system. This journal is

THERAPEUTIC COMPOUNDS AND USES THEREOF

The present invention relates to compounds useful in the modulation of ion channel activity in cells. The invention also relates to use of these compounds in the treatment of pain, and pharmaceutical compositions containing these compounds and methods for their preparation.

KOtBu-Promoted Transition-Metal-Free Transamidation of Primary and Tertiary Amides with Amines

This work discloses transamidation of primary and tertiary amides with a range of aryl, heteroaryl, and aliphatic amines using potassium tert-butoxide. The reaction proceeds at room temperature under transition-metal-free conditions providing secondary amides in high yields. Moreover, reaction of cyclopropyl amine with tertiary amides proceeds with ring-opening to provide a rapid access to enamides.

2-Amino[1,2,4]triazolo[1,5-c]quinazolines and Derived Novel Heterocycles: Syntheses and Structure–Activity Relationships of Potent Adenosine Receptor Antagonists

2-Amino[1,2,4]triazolo[1,5-c]quinazolines were identified as potent adenosine receptor (AR) antagonists. Synthetic strategies were devised to gain access to a broad range of derivatives including novel polyheterocyclic compounds. Potent and selective A3AR antagonists were discovered, including 3,5-diphenyl[1,2,4]triazolo[4,3-c]quinazoline (17, Kihuman A3AR 1.16 nm) and 5′-phenyl-1,2-dihydro-3′H-spiro[indole-3,2′-[1,2,4]triazolo[1,5-c]quinazolin]-2-one (20, Kihuman A3AR 6.94 nm). In addition, multitarget antagonists were obtained, such as the dual A1/A3antagonist 2,5-diphenyl[1,2,4]triazolo[1,5-c]quinazoline (13 b, Kihuman A1AR 51.6 nm, human A3AR 11.1 nm), and the balanced pan-AR antagonists 5-(2-thienyl)[1,2,4]triazolo[1,5-c]quinazolin-2-amine (11 c, Kihuman A1AR 131 nm, A2AAR 32.7 nm, A2BAR 150 nm, A3AR 47.5 nm) and 9-bromo-5-phenyl[1,2,4]triazolo[1,5-c]quinazolin-2-amine (11 q, Kihuman A1AR 67.7 nm, A2AAR 13.6 nm, A2BAR 75.0 nm, A3AR 703 nm). In many cases, significantly different affinities for human and rat receptors were observed, which emphasizes the need for caution in extrapolating conclusions between different species.

The reaction of 2-(acylamino)benzonitriles with primary aromatic amines: A convenient synthesis of 2-substituted 4-(arylamino)quinazolines

Abstract 2-Substituted 4-(arylamino)quinazolines were prepared from 2-(acylamino)benzonitriles and primary arylamines by refluxing in either ethanol using trifluoroacetic acid as a catalyst or acetic acid. The 2-aminobenzonitrile was acylated by reaction with anhydrides, isocyanates, or ethyl chloroformate at room temperature.

Synthesis, structural characterization, and catalytic activity of flower like zno nanostructures

Tageteserecta flower like zinc oxide nanostructures composed of hexagonal nanorods were synthesized via sonochemical method at room temperature. The synthesized nanomaterials exhibited wurtzite hexagonal phase structure with the single crystalline nature. The diameter of the individual nanorods that constitute the flower shaped zinc oxide structures is in the range of 120-160 nm. The sonication time effectively determined the morphological properties of the prepared materials. The catalytic activity of prepared zinc oxide nanostructures towards N-formylation reactions were evaluated without any surface modification and the nanostructures exhibited good reaction yield with the prompt recyclability behavior.

Mn-promoted aerobic oxidative C-C bond cleavage of aldehydes with dioxygen activation: A simple synthetic approach to formamides

A novel Mn-promoted aerobic oxidative C-C bond cleavage of aldehydes with dioxygen activation has been developed. The usage of molecular oxygen (1 atm) as oxidant, reactant, and an initiator to trigger this transformation makes this transformation very green and practical. A plausible radical process is proposed on the basis of mechanistic studies. Furthermore, this method provides a practical, neutral, and mild synthetic approach to formamides, which are important units in biologically active molecules.

Alkali-metal mediated zincation of N-heterocyclic substrates using the lithium zincate complex, (THF)Li(TMP)Zn(tBu)2 and applications in in situ cross coupling reactions

This study investigates the ability of the mixed-metal reagent [Li(TMP)Zn(tBu)2] 1 to promote direct Zn-H exchange reactions (zincations) of a wide range of N-heterocyclic molecules. The generated metallated intermediates from these reactions are intercepted with I2 and some of them are also employed as precursors in Pd-catalysed Negishi cross-coupling applications. A comparison with recent precedents in metallation chemistry reveals that for some of these heterocycles, 1 allows improved conversions, under milder conditions and in certain cases, even gives unique regioselectivities.

The conversion of 2-cyano cyanothioformanilides into 3-aminoindole-2- carbonitriles using triphenylphosphine

2-Cyano cyanothioformanilide 3a reacts with triphenylphosphine in the presence of water to give 2-(cyanomethyleneamino)benzonitrile 4a, 2-(cyanomethylamino)benzonitrile 5, 3-aminoindole-2-carbonitrile 2a and (2-cyanoindol-3-yl)iminotriphenylphosphorane 6a. In the presence of p-toluenesulfonic acid in MeOH the reaction between 2-cyano cyanothioformanilide 3a and triphenylphosphine (2 equiv) gives 3-aminoindole-2-carbonitrile 2a in 90% yield. Under the same conditions 2-(cyanomethyleneamino)benzonitrile 4a gives anthranilonitrile 8a, 3-aminoindole-2-carbonitrile 2a and N-(2-cyanophenyl)formamide 9. In addition, substituted 2-cyano cyanothioformanilides 3b-f react with triphenylphosphine and p-toluenesulfonic acid in MeOH to give 3-aminoindole-2-carbonitriles 2b-f in 63-75% yields. Under analogous conditions 2-cyano-4,5-dimethoxyphenyl cyanothioformanilide 2g gives only 4,5-dimethoxyanthranilonitrile 8g and 4,6,7-trimethoxyquinazoline-2- carbonitrile 14g, but in refluxing dry PhMe in the absence of p-toluenesulfonic acid 2-cyano-4,5-dimethoxyphenyl cyanothioformanilide 3g, (2-cyano-5,6- dimethoxyindol-3-yl)iminotriphenylphosphorane 6g and 2-(cyanomethyleneamino)-4, 5-dimethoxybenzonitrile 4g are obtained. The structure of 2- (cyanomethyleneamino)-4,5-dimethoxybenzonitrile 4g is supported unambiguously via independent synthesis and comparison to the isomeric 6,7- dimethoxyquinazoline-2-carbonitrile 15. All new compounds are fully characterised and a tentative mechanism for the transformation of 2-cyano cyanothioformanilides to indoles is proposed.