NMR Studies of Purines

Before gas-liquid chromatographic (GLC) analysis of the purine and pyrimidine bases, nucleosides, or nucleotides can be accomplished, these compounds must be converted to suitable volatile derivatives. The trimethylsilylation of active hydrogens is overwhelmingly preferred for GLC with nucleic acid

## Abstract The ^15^N NMR chemical shifts of N^7^‐ and N^9^‐substituted purine derivatives were investigated systematically at the natural abundance level of the ^15^N isotope. The NMR chemical shifts were determined and assigned using GSQMBC, GHMBC, GHMQC and GHSQC experiments in solution. ^15^N c

## Abstract Purine bases such as purine, adenine, hypoxanthine, and mercaptopurine are known to exist in several tautomeric forms. Characterization of their tautomeric equilibria is important not only for predicting the regioselectivity of their __N__‐alkylation reactions, but also for gaining know

## Abstract Surfactant molecules are amphipathic and posses complicated solution chemistry and self‐assembly properties. In addition to being of enormous practical significance, the physical characterization of surfactant systems presents a rich area of condensed matter physics. This article focuse

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