A proton magnetic resonance study of the interaction of adenylyl (3′ → 5′) adenosine with polyuridylic acid

The interaction of unsubstituted purine with polyuridylic acid in DzO solution a t neutral pD has been studied by high resolution proton magnetic resonance spectroscopy. The poly U proton resonances were shifted to higher fields by the added purine, indicating that purine binds to the uracil bases o

## Abstract The temperature‐dependent conformations of poly(U) in 0.5__M__ CsC1 have been studied by carbon‐13 nuclear magnetic resonance. The transition from random coil to an ordered structure results in broadening of lines in the ^13^C spectra, due to intramolecular ^1^H–^13^C dipolar interactio

## Abstract The solution conformations of nine 3′,5′‐__O__‐(di‐__tert__‐butylsilanediyl) nucleosides, new sila analogues of cyclic nucleotides, were studied by proton NMR spectroscopy. The furanose rings of all the compounds studied are forced to take on the C‐3′‐__endo__ conformation by the 3′,5′‐

Proton NMR data for a number of l-.IZ-4-Y-3,5-dimethylbenzenc?s and l-X-2-Y-4-Z-3,5-dimethylbenzenc?s are presented. The proton chemical shifts of the methyl groups at positions 3 and 5 are mainly affected by the ring current effect of the snbstituents. Thii conclusion was strongly supported by the

Proton and phosphorus-31 nuclear spin-lattice relaxation times 2' 1 and spin-spin relaxation times T2 have been measured on the single-stranded polyriboadenylic acid [poly(A)]-Mn2+ system in a neutral D2O solution in the temperature range 10"-90"C a t 100 and 40.5 MHz, respectively, with the Fourier

As a first part of the ab initio study of the reaction mechanism of ribonuclease A with cytidyl-3',5'-adenosine, the geometry of the cytidyl-3',5'-adenosine substrate has been optimized using the Hartree-Fock method. Eleven different starting structures of cytidyl-3',5'-adenosine have been studied.