Hydrophobic contribution to the binding of actinomycin D to deoxyguanosines

## Abstract Complexes of DNA with histone H1 and random and sequential polypeptides containing 30–100% of lysine were studied using actinomycin D as a probe. The binding of actinomycin D was measured by spectrophotometric titration in 0.15__M__ NaCl and in 0.01__M__ Tris buffer. The excluded‐site m

## Abstract Fluorescence, CD, absorption, and ^1^H‐nmr studies are reported for complexes of 7‐amino‐actinomycin D with deoxydinucleotides, deoxytetranucleotides, and poly(__d__G‐__d__C)· poly(__d__G‐__d__C). The optical spectra for the 7‐amino‐actinomycin D complex with p__d__G‐__d__C, p__d__G‐__d

## Abstract The method of solution of the nonlinear Poisson–Boltzmann equation was used to calculate electrostatic energy of binding of various aromatic ligands with DNA oligomers of different length. Analysis of the electrostatic contribution was made in terms of a two‐step DNA binding process: fo

## Abstract The binding of azide ion to horse‐heart myoglobins has been studied at pH 6.98 and at various temperatures. The results show that the azide complex is not completely loe spin and that the spin population is strongly dependent on temperature. We have shown that with some assumption it is

Actinomycin-D (actD) binds to natural DNA at two different classes of binding sites, weak and strong. The affinity for these sites is highly dependent on DNA sequence and solution conditions, and the interaction appears to be purely entropic driven. Although the entropic character of this reaction h

Seven new steroidal polyamines derived from bile acids, either lithocholic or deoxycholic acid, have been studied as DNA-binding agents using four complimentary methods: an ethidium displacement assay, observed changes in the thermal denaturation of poly[d(AT)], effects on hyperchromicity of DNA, an