Carbazole isolation

Hyellazole and chlorohyellazole are two derivatives of carbazole isolated from the littoral cyanobacteriiun Hyella caespitosa (Cardellina et al., 1979b). 

The Bucherer carbazole synthesis was first demonstrated when 7 was heated in the presence of phenylhydrazines 8, sodium hydroxide and sodium bisulfite after acidic work-up, the benzocarbazole product 9 was isolated (-70% yield). When 2-naphthol was used the reaction was significantly slower with the yield of benzocarbazole being only 46% after several days at 130 °C Bucherer and co-workers investigated this reaction extensively concluding, incorrectly, that intermediate products were probably carbazole-Al-sulfonic acids due to the ease with which they lost the sulfonic acid residues to yield benzocarbazoles. 

The Combes reaction has been applied to the preparation of carbazoles related to eJJipticine. In that case, the imine was not formed separately nor purified yet the desired product 57 was isolated in 35%. ... 

The interest in indolocarbazoles began in the early 1950s with the first rational synthetic approaches. Since then, this interest has escalated dramatically as numerous derivatives of indolo[2,3-a]carbazole (1) have been isolated from various natural sources. These derivatives were demonstrated to possess highly potent and diverse biological effects, prompting novel efforts in the area. In particular, derivatives of indolo[2,3-n]pyrrolo[3,4-c]carbazole, such as the alkaloid staurosporine (8), have attracted much attention. 

The tjipanazoles (18, 19a-d, 20a-b) a group of A-glycosides of indolo-[2,3-a]carbazole, have been isolated from the moderately antifungal extract of the blue-green alga Tolypothrix tjipanasensis. These alkaloids do not exhibit antitumor or protein kinase C (PKC) inhibitory activity, which is in contrast with the... 

In an investigation into the synthetic utility of the oxyindole 122, a wide variety of benzo- and heterocyclo-fused indexes and carbazoles was prepared, e.g., the indolo[3,2-a]carbazole 123 (Scheme 16). Thus, when 122 was reacted with indo-lylacetonitrile 124 in the presence of a base, followed by heating with phosphoric acid, the indolocarbazole 123 could be isolated in good yield (99T11563). 

The indol-3-yl-substituted indolo[2,3-()]carbazole 143 has been isolated as a product from the complex mixture generated by the decomposition of urorosein (144) (99CHE561). Interestingly, when subjected to alkylation conditions involving sodium hydride and dimethyl sulfate in THF, 143 was transformed into the N. -dimethyl derivative 145 in 36% yield (00MI2). 

Recently, the protected dimethoxy derivative 152 has been isolated in 70% yield from the Boc-protection of a nonseparable product mixture of the corresponding 2,8-dimethoxyindolo[3,2-h]carbazole 153 and the isomeric indolo[2,3-c]carbazole derivative (cf. Section VI) obtained by a double Fischer cycUzation using PPSE (00MI2). 

Similarly, iV,A/ -dimethyl-3,3 -bisindolylmethane (169) has been used in a related experiment, where treatment thereof with trifluoroacetic fflihydride (TFAA) in diethyl ether at room temperature yielded a mixture of products from which the trifluoromethyl-substituted indolo[3,2-b]carbazole 170 was isolated as the major pentacyclic component, accompanied by the hydroxy derivative 171 as well as small amounts of the indolo[2,3-h]carbazole 146 (Scheme 20). The precursor 169 could also be prepared in situ from A-methylindol-3-methanol under... 

Indole has also been demonstrated to undergo a thermally induced condensation with trifluoroacetaldehyde ethyl hemiacetal to give a variety of products depending on the reaction conditions, e.g., the 6,12-dihydroindolo[3,2-f)]carbazole 172, which could be isolated in low yield from the mixture originating from the heating of equimolar amounts of the reactants in the absence of solvent. The formation of an intermediate indolenine species was suggested to account for the outcome (88JFC47). 

During studies on the acid-induced formation of the alkaloid yuehchukene and related structures from pienylindoles, it was discovered that treatment of indole 173 with p-toluenesulfonic acid and silica gel leads to the formation of indolo-[3,2-b]carbazole 174 and the indole derivative 175 (Scheme 21). Similarly, the disubstituted product 176 could be isolated after TFA treatment of the substrate 177. Detailed mechanistic explanations have also been provided in this work (96T9455). 

Several derivatives of indolo[3,2-fi]carbazole, such as the system 185, have been claimed to arise from the reaction of suitably substituted simple indoles on treatment with thallium triacetate in acetic acid. A compound having the purported structure of 185 was thus isolated when 2,3-dimethylindole was used as the substrate [78UC(B)422]. Many years later, it was demonstrated that this product is in fact a derivative of indolo[2,3-c]carbazole (cf. Section VI) (99T12595). 

Studies on the Bischler-Napieralski cyclization of A -acetyltryptamine in the presence of indole have led to the isolation of numerous products, among which the indolocarbazole 186 could be found in 3.5% yield. This outcome was rationalized as a result of the intermediacy of a spiroindolenine species formed under these conditions [89H(28)175]. During detailed studies on the polymerization of indole, formation of a low yield of the related indolo[3,2-h]carbazole 187 was discovered in the product mixture originating from the treatment of indole with p-toluenesulfonic acid at elevated temperature [88JCS(P1)2387]. In an investigation of the condensation of p-benzoquinone with 4-substituted anilines, an indolo[3,2-h]carbazole derivative has been reported to be formed in 2% yield (80JOC1493). 

In a study by Stresser and co-workers, the effect on tumor modulation by 227 has been investigated. HPLC on liver extracts from Fisher 344 rats revealed two major compounds, 3,3 -bisindolylmefliane (133) and a linear trimer, together with a < l(KX)-fold lower content of 4 in comparison with the two major substances. The HPLC isolate was derivatized with /V-methyl-/V-bis(trifluoroacetamide) that, upon MS detection, gave a compound identical to /V,W -ditrifluoroacetylindolo-[3,2-()]carbazole. The content of 4 in this system was estimated to be 0.(XKX)13% of the total dose of 227 given. Thus, it was concluded that the beneficial effect of oral distribution of 227 is due to the total content of derivatives formed (95MI5). 

The yellow colored, sparcely soluble 5-ethyl-2-methyl-l l/f-pyrido[3,4-u] carbazolium 347 isolated from Aspidosperma gilbertii exists as a hydroxide after filtration of the corresponding iodide over basic aluminum oxide. A short synthesis was described (80CB3245). The Pyrido[3,4-a]carbazole ring system is present in the alkaloid AG-1, whereas Cryptolepine (348) possesses the indolo[3,2-b]quinoline moiety (65MI1). 

Scheme 1-20. Poly(vinyl carbazole) and an example of a polymer with an isolated chromo-phore.

Figure 7.23 shows the prototype diazobenzo[Z ]fluorene-based natural products kinamycin A and prekinamycin. The kinamycin A-D family were first isolated from Streptomyces murayamaensis, but the structures were incorrectly characterized as having a cyanobenzo[Z ]carbazole ring. Since the initial discovery of the kinamycins, many new analogues have been discovered from natural sources.88-92... 

Some of the enzymes involved in the known pathways for the degradation of quinoline have been isolated and purified. However, not all enzymes have been identified, or characterized. In this section, we will consider the enzymes associated with the degradation of quinoline (and related compounds), carbazole and indole. To examine the enzymatic work, the reader is referred to the previous section, in which the metabolic pathways were detailed. 

Several species of the genus Pseudomonas have been isolated that degrade carbazole and its alkyl derivatives and a variety of other microorganisms have been reported to mineralize non-basic nitrogen compounds, including species of Bacillus, Xanthomonas, Burkholderia, Comamonas, Beijerinckia, Mycobacterium, and Serratia [310],... 

Kimura, T. Yan, Z. Kodama, T., and Omori, T., Isolation and characterization of Tn 5-induced mutants deficient in carbazole catabolism. FEMS Microbiology Letters, 1996. 135(1) pp. 65-70. 

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