The use of radiolabelled triostin antibiotics to measure low levels of binding to deoxyribonucleic acid.

Triostin antibiotics, which contain a cyclic peptide with a disulphide bridge, have been prepared by growing Streptomyces triostinicus in the presence of inorganic [35S]-sulphate. The labelled triostin A has been shown to behave in all respects similarly to the authentic natural product and to enable a much more sensitive radiochemical adaptation of the solvent-partition method for determining antibiotic binding to DNA. By this means, binding isotherms at low, biologically relevant levels (down to one antibiotic molecule per gene) have been measured. The results indicate the existence of some tight binding sites in natural DNA species that are preferentially occupied at low concentrations. No evidence has been found for any allosteric transitions provoked by interaction between these antibiotics and natural DNA species, though there is evidence for co-operativity in the binding of triostin A to poly(dA-dT). For the first time accurate isotherms have been determined for the binding of triostin C to DNA; its binding constants for a variety of polydeoxynucleotides are uniformly tighter than those of triostin A but fall into the same ranking order when different species of natural DNA are compared.