Examining the Potential Formation of Ternary DNA Complexes with Chromium‑Cysteine, Chromium-Ascorbate, and Chromium-Glutathione and Implications for Their Carcinogenicity.

The mutagenic and carcinogenic properties of chromium(VI) complexes have been ascribed to the formation of ternary Cr(III)-small molecule-DNA complexes. As part of these laboratories' efforts to establish the structure and properties of discrete binary and ternary adducts of Cr(III) and DNA at a molecular level, the properties of Cr(III)-cysteine-DNA, Cr(III)-ascorbate-DNA, and Cr(III)-glutathione-DNA complexes formed from Cr(III) were examined. These studies determined the composition of previously described "pre-reacted" chromium cysteinate and chromium glutathione.

Verification and Temperature-Dependent Rectification by HBQ, the Smallest Unimolecular Donor-Acceptor Rectifier.

Five years ago, rectification of electrical current was found in 4'-bromo-3,4-dicyano-2',5'-dimethoxy-[1,1'-biphenyl]-2,5-dione (), a hemibiquinone (which we will call either or HBQ) that has a very small working length (1.1 nm). Monolayers of HBQ on Au were detected by "nanodozing" atomic force microscopy (AFM) and were contacted with two types of top electrodes: either cold Au or eutectic Ga-In.

Substituent effects on indole universal bases in DNA.

A series of eleven 5-substituted-indole nucleoside residues were synthesized and incorporated into 15-mer oligodeoxynucleotide duplexes with each of the four natural bases (A, G, C, T) paired with the non-natural residues. The universal base properties of these residues were evaluated by comparing the stabilities of these complexes determined by UV thermal denaturation experiments. All of the substituted indoles were more stable than an unsubstituted indole residue, and measures of electronic influences of substituents on the indole pi system correlate with stability.

Examining the Potential Formation of Ternary Chromium-Histidine-DNA Complexes and Implications for Their Carcinogenicity.

The mutagenic and carcinogenic properties of chromium(VI) complexes have been ascribed to the formation of ternary Cr(III)-small molecule-DNA complexes. As part of these laboratories efforts to establish the structure and properties of discrete binary and ternary adducts of Cr(III) and DNA at a molecular level, the properties of Cr(III)-histidine-DNA complexes formed from Cr(III) were examined. These studies determined the composition of previously described "prereacted" chromium histidinate and reveal the reaction of "prereacted" chromium histidinate with DNA does not form ternary complexes as previously proposed.