A study of the absorption of oligonucleotides by polystyrene anion-exchangers showed that a large component of the total binding forces consists of nonionic interactions, and that these interactions can be substantial...
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A study of the absorption of oligonucleotides by polystyrene anion-exchangers showed that a large component of the total binding forces consists of nonionic interactions, and that these interactions can be substantially reduced in the ion-exchange chromatography of these molecules by adding ethanol to the eluting solvents. This technique permits the separation of oligonucleotide species at pH values near neutrality and with solvent systems containing gradients of relatively low concentrations of Cl-. Chromatography of oligonucleotides with solvents containing 40% ethanol yields reproducible retention volumes that are dependent on their chain lengths and, to some extent, on their base compositions and the presence of 3''-terminal or 5''-terminal PO42- groups in the molecules. The flexibility in the use of solvent systems with 3 variable factors: pH, ethanol concentrations, and gradient of salt concentration, can also be exploited in the separation of mixtures of nucleosides this observation permitted the development of simple procedures for the characterization of ribo- and deoxyribooligonucleotides with respect to their base compositions, chain lengths and the identity of their 3''- and 5''-terminal nucleosides. Oligonucleotides were obtained from: a pig liver nuclei RNase digest of poly(A) and poly(U);a pancreatic RNase digest of wheat germ ribosomal RNA;and RNase T, digest of bacteriophage GA RNA (phage grown in Escherichia coli).
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