|
Stassinopoulos, A; Ji, J; Gao, X et al. (1996) Solution structure of a two-base DNA bulge complexed with an enediyne cleaving analog. Science 272:1943-6
|
|
Gao, Q; Cheng, X; Smith, R D et al. (1996) Binding specificity of post-activated neocarzinostatin chromophore drug-bulged DNA complex studied using electrospray ionization mass spectrometry. J Mass Spectrom 31:31-6
|
|
Zeng, X; Xi, Z; Kappen, L S et al. (1995) Double-stranded damage of DNA.RNA hybrids by neocarzinostatin chromophore: selective C-1' chemistry on the RNA strand. Biochemistry 34:12435-44
|
|
Stassinopoulos, A; Goldberg, I H (1995) Binding and cleavage characteristics of the complexes formed between the neocarzinostatin chromophore and single site containing oligonucleotides. Bioorg Med Chem 3:713-21
|
|
Stassinopoulos, A; Goldberg, I H (1995) Probing the structure of long single-stranded DNA fragments with neocarzinostatin chromophore. Extension of the base-catalyzed bulge-specific reaction. Biochemistry 34:15359-74
|
|
Gao, X; Stassinopoulos, A; Rice, J S et al. (1995) Structural basis for the sequence-specific DNA strand cleavage by the enediyne neocarzinostatin chromophore. Structure of the post-activated chromophore-DNA complex. Biochemistry 34:40-9
|
|
Kappen, L S; Goldberg, I H (1995) Bulge-specific cleavage in transactivation response region RNA and its DNA analogue by neocarzinostatin chromophore. Biochemistry 34:5997-6002
|
|
Yang, C F; Stassinopoulos, A; Goldberg, I H (1995) Specific binding of the biradical analog of neocarzinostatin chromophore to bulged DNA: implications for thiol-independent cleavage. Biochemistry 34:2267-75
|
|
Xu, Y J; Xi, Z; Zhen, Y S et al. (1995) A single binding mode of activated enediyne C1027 generates two types of double-strand DNA lesions: deuterium isotope-induced shuttling between adjacent nucleotide target sites. Biochemistry 34:12451-60
|
|
Gao, X; Stassinopoulos, A; Gu, J et al. (1995) NMR studies of the post-activated neocarzinostatin chromophore-DNA complex. Conformational changes induced in drug and DNA. Bioorg Med Chem 3:795-809
|
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