Spiro hydrocarbons and dibenzo[c,p]chrysene from 1-tetralone

Burnham, J. W.; Melton, Robert G.; Eisenbraun, E. J.

doi:10.1021/jo00956a010

Cited by 13 publications

(9 citation statements)

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“…Isomeric 1‐aza[4]helicenes (only two of them are known) are rare. [16b], There is also little known about double [4]carbohelicenes (dibenzo[ c , p ]chrysenes),[21a], [21b] and their aza‐analogues are unknown. Recently, double S‐shaped aza[4]helicenes (phenanthridino[10,9‐ k ]phenanthridines) have been synthesized by a metal‐free C(sp 3 )–H amination reaction with unprotected anilines.…”

Section: Introductionmentioning

confidence: 99%

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Synthesis and Characterization of Pyridine‐, Pyrazine‐, and Quinoxaline‐Derived [4]Helicenes and S‐Shaped Double [4]Helicenes

2018

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A systematic study of the synthesis and properties of 1‐aza‐, 4‐aza‐, and 1,4‐diaza[4]helicenes as well as the previously unknown S‐shaped double 1,4‐diaza[4]helicenes has been reported. The synthetic route to the aza‐ and diaza[4]helicenes involved an electrophile‐induced cyclization of 3(2)‐alkynyl‐2(3)‐(naphthalen‐1‐yl)azines (i.e., quinoxaline, pyrazine, pyridine), which were prepared in two steps from the commercially available ortho‐dihalo‐substituted azine. Trifluoroacetic acid (TFA) and ICl were used as electrophiles. The ICl‐promoted cyclization provided the 5‐iodo derivatives of the aza‐ and diaza[4]helicenes in yields of 47–71 %. The use of TFA as the electrophile afforded the helicenes along with isomeric products from an alternative cyclization and subsequent 1,2‐shift of the C–C bond (e.g., naphtho[2,1‐f]quinoxalines or naphtho[2,1‐a]phenazines, 87–89 % total yield, 1.5–1.8:1 ratio). The presence of an iodine substituent in the hetero[4]helicenes allowed for the introduction of an alkynyl group by using a Sonogashira reaction. The subsequent cycloizomerization upon treatment with TFA gave the S‐shaped double 1,4‐diaza[4]helicenes. The molecular structures and crystal packing of the synthesized hetero[4]helicenes relative to those of [4]carbohelicene have been discussed.

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Section: Introductionmentioning

confidence: 99%

“…Recently, double S‐shaped aza[4]helicenes (phenanthridino[10,9‐ k ]phenanthridines) have been synthesized by a metal‐free C(sp 3 )–H amination reaction with unprotected anilines. [21c]…”

Section: Introductionmentioning

confidence: 99%

Synthesis and Characterization of Pyridine‐, Pyrazine‐, and Quinoxaline‐Derived [4]Helicenes and S‐Shaped Double [4]Helicenes

2018

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“…Journal of the American Chemical Society / 97:4 / February °Atom % excess lsO at ether position, 7.36 ± 0.08%. 6 Analyses by mass spectrometry; footnote 9a.c By combined NMR and GLPC analyses. d For run 3, a trace of 9 and an unidentified compound (0.3%) were detected also. '…”

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Photochemistry of aromatic compounds. Internal return in the photosolvolysis of 3,5-dimethoxybenzyl acetate

Jaeger¹

1975

J. Am. Chem. Soc.

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“…A synthesis of DB[ c,p ]C has been reported in the literature starting from self-condensation of tetralone via a spiral intermediate . However, this method cannot be applied to the syntheses of fjord region dihydrodiol metabolites of DB[ c,p ]C. We intended to exploit the Suzuki cross-coupling approach for their syntheses.…”

Section: Resultsmentioning

confidence: 99%

Convenient Syntheses of Dibenzo[c,p]chrysene and Its Possible Proximate and Ultimate Carcinogens: In Vitro Metabolism and DNA Adduction Studies

et al. 2005

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Dibenzo[c,p]chrysene (DB[c,p]C) is the only hexacyclic polycyclic aromatic hydrocarbon having two fjord regions, both in different chemical environments. Its environmental presence and relative tumorigenic potency are not known due to the lack of synthetic standards. We report here the synthesis of dibenzo[c,p]chrysene (1), its proximate carcinogens, i.e., trans-1,2-dihydroxy-1,2-dihydro-DB[c,p]C (2) and trans-11,12-dihydroxy-11,12-dihydro-DB[c,p]C (3), and possible ultimate carcinogens, i.e., anti-trans-1,2-dihydroxy-3,4-epoxy-1,2,3,4-tetrahydro-DB[c,p]C (4) and anti-trans-11,12-dihydroxy-13,14-epoxy-11,12,13,14-tetrahydro-DB[c,p]C (5). The syntheses of 1 and the appropriately methoxy-substituted DB[c,p]C (12 and 27), key intermediates for the synthesis of its proximate and ultimate metabolites, were tried first using a Suzuki cross-coupling reaction. However, the cyclization of olefins (10 and 11) gave poor yields of the desired products. An alternate method was thus developed employing a photochemical approach. The in vitro metabolism of DB[c,p]C was established with the S9 fraction of liver homogenate from phenobarbital/beta-naphthoflavone-induced Sprague-Dawley rats. The major dihydrodiol formed was identified as the fjord region 11,12-dihydroxy-11,12-dihydro-DB[c,p]C, while the major and minor phenols were identified as 11-hydroxy-DB[c,p]C and 12-hydroxy-DB[c,p]C, respectively. Further, the DNA adduction studies with the calf thymus DNA led to a mixture of dA and dG adducts for both fjord region diol epoxides (4 and 5). Interestingly, the dA to dG ratio for 1,2-dihydroxy-3,4-epoxide was much higher (3.2) compared to that of 11,12-dihydroxy-13,14-epoxide (0.5).

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Spiro hydrocarbons and dibenzo[c,p]chrysene from 1-tetralone

Cited by 13 publications

References 0 publications

Synthesis and Characterization of Pyridine‐, Pyrazine‐, and Quinoxaline‐Derived [4]Helicenes and S‐Shaped Double [4]Helicenes

Synthesis and Characterization of Pyridine‐, Pyrazine‐, and Quinoxaline‐Derived [4]Helicenes and S‐Shaped Double [4]Helicenes

Photochemistry of aromatic compounds. Internal return in the photosolvolysis of 3,5-dimethoxybenzyl acetate

Convenient Syntheses of Dibenzo[c,p]chrysene and Its Possible Proximate and Ultimate Carcinogens: In Vitro Metabolism and DNA Adduction Studies

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