From Indoles

C From indole-3-carboxaldehvdes by condensation with nitroalkanes ... 

A versatile tryptophan synthesis which proceeds directly from indoles as starting materials was developed by Gilchrist[5], The alkylation reagent is the... 

Better results have been obtained using the 3-(2-pyrrolidinylidene)indolenine intermediate 13.3A which can be prepared from indole-3-carboxaldehyde and pyrrolidine[16]. 

Synthesis of carbazoles from indoles by quinodlmethane intermediates... 

Pyrano[3,4-b]indol-3-ones are the most useful equivalents of the indol-2,3-quinodimethane synthon which are currently available for synthetic application. These compounds can be synthesized readily from indole-3-acetic acids and carboxylic anhydrides[5,6]. On heating with electrophilic alkenes or alkynes, adducts are formed which undergo decarboxylation to 1,2-dihydro-carbazoles or carbazoles, respectively. 

Ha.logena.tlon, 3-Chloroindole can be obtained by chlorination with either hypochlorite ion or with sulfuryl chloride. In the former case the reaction proceeds through a 1-chloroindole intermediate (13). 3-Chloroindole [16863-96-0] is quite unstable to acidic aqueous solution, in which it is hydroly2ed to oxindole. 3-Bromoindole [1484-27-1] has been obtained from indole using pytidinium tribromide as the source of electrophilic bromine. Indole reacts with iodine to give 3-iodoindole [26340-47-6]. Both the 3-bromo and 3-iodo compounds are susceptible to hydrolysis in acid but are relatively stable in base. 

Enzymatic Process. Chemically synthesized substrates can be converted to the corresponding amino acids by the catalytic action of an enzyme or the microbial cells as an enzyme source, t - Alanine production from L-aspartic acid, L-aspartic acid production from fumaric acid, L-cysteine production from DL-2-aminothiazoline-4-catboxyhc acid, D-phenylglycine (and D-/> -hydtoxyphenylglycine) production from DL-phenyUiydantoin (and DL-/)-hydroxyphenylhydantoin), and L-tryptophan production from indole and DL-serine have been in operation as commercial processes. Some of the other processes shown in Table 10 are at a technical level high enough to be useful for commercial production (24). Representative chemical reactions used ia the enzymatic process are shown ia Figure 6. 

The nitrosation of pyrroles and indoles is not a simple process. The 3-nitroso derivatives (84) obtained from indoles exist largely in oximino forms (85) (80IJC(B)767). Nitrosation of pyrrole or alkylpyrroles may result in ring opening or oxidation of the ring and removal of the alkyl groups. This is illustrated by the formation of the maleimide (86) from 2,3,4 -trime thylpyrrole. 

The N " -BOC group can be removed under the usual conditions for removing the BOC group CF3COOH and HF. It can also be removed with hydrazine and NH3/ MeOH. NaOMe/MeOH/THF has been used to remove the BOC group from pyrroles in 66-99% yield. Thermolysis at 180° cleaves the BOC group from indoles and pyrroles in 92-99% yield. 

From indole dibenzyl oxylate, r-BuOK, DMF, reflux, 86% yield. ... 

Ciamician and Dennstedt reacted the potassium salt of pyrrole with chloroform in ether and isolated, after much purification, 3-chloropyridine, which was confirmed by crystallization with platinum. While the pyrrole salt can be used as the base, the chloroform carbene is typically formed with an alkali alcohol. Forty years later, Robinson and co-workers made 3-chloroquinolines from indoles using the Ciamician-Dennstedt reaction. ... 

This reaction is also a key method for the formation of tetrahydro-P-carbolines 5 from indole bases 4 and aldehydes, ketones, or 1,2-di carbonyl compounds 2. These reactions are similarly acid-catalyzed or thermally-induced and have been utilized in the synthesis of numerous indole alkaloids. 

Tricyanovinylindole (57) and its 1-methyl derivative, obtainable from the parent indoles and tetracyanoethylene, combine with dimethyl acetylenedicarboxylate to give the corresponding carbazoles. That derived from indole (58) has been hydrolyzed and esterified yielding (55). 

A number of diindolylmethane derivatives including 336, 338, 339, 340, and 341 have been obtained by the action of the appropriate ketones, under fairly vigorous conditions, on the Grignard reagents derived from indole or 2-methylindole. ... 

Ingraffia studied the oxidation of the Grignard reagents derived from indole, skatole, and 2-methylindole with hydrogen peroxide and... 

Indolo[3,2-fl]pyrrolo[3,4-c]carbazoles 120 have been obtained in one step from indole and the corresponding maleimides in acetic acid, with coformation of the Michael adducts 121 (Scheme 15). This reactitai required careful temperature control in order to obtain the desired product ratios. An alternative independent synthesis of compounds 120 could also be accompKshed from 2,3 -biindolyl (115) andsuitable maleimides in hot acetic acid (99T2363). The system 120 where R = H has also been reported as a minor product during studies toward a synthesis of the alkaloid arcyriaflavin A (95TL2689). 

For the preparation of 2,3-dihydroindoles (8) from indoles (7), two reduction methods are known. In the column Reduction Method in the table, the one indicated A represents use of EtsSiH in TFA (79JOC4809) and the other, indicated B, employs NaBHsCN in AcOH (77S859, 88JMC1746). Although both methods are applicable, the former is generally superior to the latter. In some cases, depending on the substrates structures, the reverse cases are also observed. Examples are the reactions marked B in the column. 

A remarkably simple fused indole devoid of the traditional side chains is described as an antidepressant agent. Michael addition of the anion from indole ester 119 to acrylonitrile affords the cyanide 120. Selective... 

Noland and coworkers have developed an interesting methodology for the in situ synthesis of carbazoles. This methodology combines the synthesis of 3-vinylindoles from indoles and acyclic ketones with the subsequent Diels-Alder cycloaddition in one flask to produce a variety of tetrahydrocarbazoles [88] (Scheme 2.36). 

Two distinct routes from indoles to quinoxalines have been reported, but neither has been developed to any extent. Examples follow. 

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