63216-11-5Relevant articles and documents
LDA (lithium diisopropylamide) mediated reactions of 1-naphthalynes with lithiated acetonitriles and 1,4-dipolar nucleophilic anions
Biehl,Rakeeb Deshmukh,Dutt
, p. 885 - 888 (2007/10/02)
3-Bromo-2-methoxy-(5) and 3-bromo-2-methoxy-6-methylnaphthalene (6) yield 1-naphthalyne intermediates which react with various α-lithiated nitriles 10 to afford both rearranged 1-arylmethyl- or 1-hetarylmethyl-3-methoxynaphthalene-2-carbonitriles 11 and 12, respectively, and α-naphthylated aryl- or hetarylacetonitriles 13 and 14, respectively. Product distributions 11:13 favoring rearranged nitriles (65:35-90:10) were obtained from LDA-mediated reactions of 5 with arylacetonitriles 9a, b and thiopheneacetonitriles 9c, d. Similar treatment of 6 with 9a-d gave product distributions 12:14 heavily in favor of rearranged nitriles (> 90:10) presumably due to the ability of the additional 7-methyl group to increase the rate of cyclization of the initial aryne-nitrile anion adduct, the crucial step in the rearrangement pathway. However treatment of either 5 or 6 with α-lithiated pyridylacetonitriles 9e, f or 2-benzimidazolylacetonitrile (9g) gave product distributions 11:13 or 12:14, respectively, heavily in favor of α-naphthylated acetonitriles (30:7010:90). Additionally, several precursors to methoxy-substituted 1-naphthalynes 5, 19 and 20 were found to undergo cycloaddition with the dipolar nucleophilic precursors 3-cyanophthalide (17) and α-cyano-o-tolunitrile (21) to give angularly substituted benz[a]anthracene derivatives 18, 22.
Synthesis of the o-Quinones and Dihydro Diols of Polycyclic Aromatic Hydrocarbons from the Corresponding Phenols
Sukumaran, K.B.,Harvey, Ronald G.
, p. 4407 - 4413 (2007/10/02)
Terminal-ring trans-dihydro diol metabolites have been implicated as the ultimate carcinogenic forms of polycyclic aromatic hydrocarbons.Synthesis of these dihydro diols from the related polycyclic phenols in two steps via oxidation to the corresponding o-quinones with either Fremy's salt or phenylseleninic anhydride followed by stereospecific reduction with lithium aluminum hydride is described.The non-K-region quinones and trans-dihydro diols of naphthalene, anthracene, phenanthrene, benzanthracene, benzopyrene, and 7,12-dimethylbenzanthracene are synthesized via this approach.Although poor yields (1-4percent) were previously reported for the reduction of non-K-region quinones, an improved experimental procedure has been developed which affords the trans-dihydro diols free of the isomeric cis-dihydro diols in generally good yields.Major byproducts are the corresponding hydroquinones, previously undetected, and the related tetrahydro diols.The latter are the major products of reduction of the poorly soluble quinones of benzopyrene and benzanthracene and are shown to arise through further reduction of the dihydro diols.Since the tetrahydro diols are convertible to dihydro diols and the hydroquinones are reoxidizable to quinones, good overall conversions of quinones to dihydro diols are attainable. trans-3,4-Dihydroxy-3,4-dihydro-7,12-dimethylbenzanthracene synthesized in these studies is the most potent tumorigenic hydrocarbon metabolite tested to date.
