A novel multicomponent synthesis of 5-aminooxazole starting from simple and readily available inputs is described. Thus, simply heating a methanol solution of an aldehyde 3, an amine 4, and an alpha-isocyanoacetamide 5 provided the 5-aminooxazole (1) in good to excellent yield. The reaction of 1 with alpha,beta-unsaturated acyl chloride 13 lead to the formation of pyrrolo[3,4-b]pyridin-5-one (2) in a single operation. A triple domino sequence, acylation/IMDA/retro-Michael cycloreversion, is involved in this new scaffold-generating reaction. After the observation that ammonium chloride can significantly accelerate the oxazole formation in toluene, a one-pot four-component synthesis of 2 is developed.
A novel three-component synthesis of 5-amino oxazole (1) is reported. Its subsequent reaction with alpha,beta-unsaturated acyl chloride leads to polysubstituted pyrrolopyridine (2). A triple domino process, acylation/IMDA/retro-Michael cycloreversion, was involved in the latter process. The methodology allows the quick preparation, from simple and readily available inputs, of highly functionalized title compounds not easily accessed by other methods.
A dimeric bis-benzimidazole molecule has been designed by computer modeling to bind to a DNA sequence via the DNA minor groove that covers a complete turn of B-DNA. A series of bis-benzimidazole dimers incorporating a -O-(CH(2))(n)()-X-CH(2))(n)()-O- linker, with n = 2 or 3 and X = O or N(+)H(Me), were screened for their capacity to fit the DNA minor groove. The modeling studies enabled an optimal linker to be devised (n = 3, X = N(+)H(Me)), and the synthesis of the predicted "best" molecule, N-methyl-N,N-bis-3,3-[4'-[5' '-(2' "-p-methoxyphenyl)-5' "-1H-benzimidazolyl]-2' '-1H-benzimidazolyl]phenoxypropylamine (5), is reported. The optimized linker permits the two symmetric bis-benzimidazole motifs to maintain hydrogen-bonded contacts with the floor of the DNA minor groove. DNase I footprinting studies have shown that this ligand binds with high affinity to sequences representing approximately a complete turn of B-DNA, represented by the [A.T](4)-[G.C]-[A.T](4) motif, and only poorly to sequences of half this site size, in accord with the computer modeling studies. Compound 5 does not show acute cellular cytotoxicity, in contrast with its monomeric bis-benzimidazole precursors, yet is rapidly taken up into cells.
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