Circular dichroism of acridine orange bound to DNA

## Abstract The induced circular dichroism (CD) in the visible region of acridine orange bound to the double‐stranded RNA from cytoplasmic polyhedrosis virus and to yeast tRNA has been measured as a function of RNA phosphate‐to‐dye ratio (P/D), under the conditions of 0.01 __M__ Na^+^ at pH 7.0. Th

The binding curves of 1-, 2-, 3-, and 9-aminoacridine and proflavine on native DN.4 and the circular dichroism (CD) spectra of the bound cations have been determined under the same conditions. The variation of the CD spectra with the amount ( r ) of aminoacridine bound per DNA phosphorus waa of two

## Abstract Circular dichroism and absorption spectra are measured on mixed solutions of acridine orange and poly(__S__‐carboxymethyl‐L‐cysteine) at different pH and P/D mixing ratios. The observed circular dichroism spectra are classified into several types, mainly based on the number and sign of

## Abstract Circular dichroism and absorption spectra have been measured on solutions of acridine orange and poly(L‐glutamic acid) mixed at two molar ratios of carboxyl group‐to‐dye, P/D 25 and 0.8, and at different pH's. Characteristic circular dichroism is induced at the absorption bands of acrid

## Abstract The circular dichroism (CD) spectra of a number of superhelical DNA's have been measured. The introduction of negative superhelical turns causes an increase in magnitude of the positive band around 280 mμ, while the trough around 250mμ is little affected. For two samples of λb2b5c DNA (

## Abstract Fluorescence of acridine orange bound to RNA or DNA in the single‐stranded form including single‐stranded synthetic polyribo‐ or polydeoxyribonucleotides was measured in the expectation that some distinct structural characteristic between single‐stranded RNA and DNA might be reflected b