Methyl benzoate indole

Fig. 5.1. A sample of floral scent compounds. (1) Substituted methyl esters of benzoic acid. The ester smells unpleasantly sweet when R = H (methyl benzoate), of wintergreen when R = OH (methyl salicylate), and of concord grape when R = NH2 (methyl anthranylate). Odorants with unusual origins and biological functions include the homoterpene 4,8-dimethyl-1,3,7-nonatriene (2) and the wet-earth compound geosmin (3). Some ubiquitous fragrance compounds are ben-zaldehyde (4), benzyl alcohol (5), indole (6), (S)-linalool (7), ( )-/ -ocimene (8), and of-farnesene (9).

Chemical Name 2-Propanol, l-((l,l-dimethylethyl)amino)-3-((2-methyl-lH-indol-4-yl)oxy)-, benzoate (ester), (+/-)-... 

Synthesis of Aromatic Nitriles from Esters. A one-flask method has been developed for the conversion of aromatic esters to the corresponding nitriles by use of NaHMDS in a sealed tube at 185 °C in a mixture of THF and 1,3-dimethyl-2-imidazolidinone (DMEU) (eq 20). The transformation proceeded with good to excellent yields. The synthetic strategy is only apphcable to aromatic esters that bear an electron-donating substituent such as hydroxy or methoxy. In the latter case, con tetitive 0-demethyla-tion is observed, thus leading to a mixture of nitrile products. The reaction has been also applied to indole-3-carboxylate. However, simple unsubstituted methyl benzoate failed to give the desired product. 

Heptane Heptyl alcohol Indole Styrene Acetophenone Benzyl formate Methyl benzoate Phenyl acetate Methyl salicylate Ethylbenzene m-Xylene o-Xylene p-Xylene... 

Figure 11.11 Pyrogram of a paint sample collected from a decorative frame of the Universal Judgement by Bonamico Buffalmacco (fourteenth century, Monumental Cemetery of Pisa, Italy). Pyrolysis was performed with a microfurnace pyrolyser, at 600°C, in the presence of HMDS. 1, Benzene 2, ethyl acrylate 3, methyl methacrylate 4, acetic acid, trimethyl silyl ester 5, pyrrole 6, toluene 7, 2 methylpyrrole 8, 3 methylpyrrole 9, crotonic acid 10, ben zaldehyde 11, phenol 12, 2 methylphenol 13, 4 methylphenol 14, 2,4 dimethyl phenol 15, benzyl nitrile 16, 3 phenylpropionitrile 17, indole 18, phthalate 19, phthalate 20, ben zyl benzoate HMDS pyrolysis products [27]...

Madclung synthesis, 27-30 Mannich alkylation, 106, 119 7-mcthoxyindole, procedure for, 8 6-methoxyindole-3-carboxaldehyde, procedure for, 115 116 methyl 4-[5-(benzyloxycarbonyl)indol-3-yl]methyl-3-methoxy-benzoate, procedure for, 108... 

The highly substituted indole, ecopladib (82), which shares many structural elements with the phospholipase inhibitor varespladib (37), shows similar biological activity. Alkylation of hydroxy benzoate (72) with the dimethyl acetal from bromoacetaldehyde (73) affords the ether (74). Acid-catalyzed reaction of this intermediate with 2-methyl-5-chloroindole (75) in the presence of triethylsilane leads in effect to condensation of the acetal with the activated 3 position on the indole ring to afford 76. The nature of the reduction of the aldehyde carbon is not immediately apparent. Alkylation of the anion on nitrogen from reaction of the indole with sodium hydride and bromodiphenylmethane then adds the third... 

The same condensation-cyclization sequence with 4-methoxy-phenylhydrazine (292), however, proceeded in only 17% yield (113), so an alternative synthesis was devised for the important 8-oxygenated derivatives, such as 293 and 294, which employed a more conventional Fischer indole reaction (Scheme 47) (113). In the event, condensation of keto ketal 295 with hydrazine 280 gave hydrazone 296. Cyclization in hot diphenyl ether gave ketone 297, which, upon dehydrogenation, protection of the phenol as the benzoate, and chlorination gave 298. Deprotection and/or methylation afforded the target chloro-y-carbolines (299-301). 

Figure 2. Formulas of selected D-A compounds which contain 4-dialkylamino group as an electron donor and reveal dual fluorescence behaviour. Top /)-cyano-A,A-dimethylaniline (I, CDMA) and its model derivatives p-cyano-2,A,A-trimethylaniline (II), p-cyano-2,6,A.A-tetramethylaniline (III, CTMA)./)-aminobenzonitrile (IV, ABN) and l-ethyl-2,3-dihydro-indole-5-carbonitrile (V. BIN). Middle 4-(dimethylamino)pyrimidine (VI), 4-(diethylamino)pyrimidine (VTI), 4-(dimethylamino)-5-methylpyrimidine (VIII), 4-(diethylamino)-5-methylpyrimidine (IX) and 4-(dimethylamino)-pyridine (X). Bottom methyl 4-(dimethylamino)benzoate (XI, DMAMB), ethyl 4-(dimethylamino)benzoate (XII, DMAEB), p-(dimethylamino)-benzaldehyde (XIll) and />-(dimethylamino)acetophenone (XIV).

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