Superhelical Escherichia coli DNA: relaxation by coumermycin.

A class of compounds of the form: NH₂NHCO(CH₂)_nC(OR)₂CHR′X has been designed to allow selective blocking of specific genetic sequences of DNA and RNA (Summerton, unpublished data). This paper describes the synthesis and use of 6-bromo-5,5-dimethoxyhexanohydrazide for such site-specific inactivation. In model reactions it is shown that this compound can be attached to the C-4 position of cytidine and that, after activation, the cytidine-bound agent crosslinks to the N-7 position of guanosine. This reaction sequence has been applied to the crosslinking of bacteriophage T7 RNA to its complementary DNA in a highly specific fashion. The RNA is derivatized with the hydrazide reagent, activated, and incubated under annealing conditions with the complementary DNA, resulting in crosslinks between the two strands that are stable to denaturing conditions, dependent on the presence of the crosslinking agent, and specific for the complementary DNA sequence. These studies show that the title compound is a promising sequence-specific blocking agent for nucleic acids. The capability of introducing site-specific blocks in DNA and RNA in this way may have a wide variety of applications in the study of genetic processes. In particular, the combination of this compound with appropriate restriction fragments may enable systematic mapping and characterization of viral genomes.