Oligodeoxynucleotides are reversibly deuteriated at the purine C8 and cytosine C5 positions with deuterioammonium bisulfite at pD 7.8. The exchange reaction is complete after 48 h at 65 degrees C. When an oligomer deuteriated under these conditions is analyzed by 1H nuclear magnetic resonance (NMR) spectroscopy, the purine H8 and cytosine H5 proton signals are selectively removed from the spectrum. A non-self-complementary oligodeoxynucleotide that has been deuteriated in this manner may be annealed with its complement and the resulting heteroduplex analyzed by two-dimensional nuclear Overhauser enhancement (NOESY) spectroscopy. NOE cross-peaks arising from pyrimidine H6-deoxyribose H1' dipolar interactions in both strands are observed, but purine H8-deoxyribose H1' and purine H8-deoxyribose H2',H2" dipolar interactions are only observed for the nondeuteriated strand. The intense cytosine H5-H6 cross-peaks are also removed from the spectrum of the deuteriated strand, which further simplifies interpretation since these strong cross-peaks often interfere with less intense NOE cross-peaks arising from dipolar coupling between purine H8 or pyrimidine H6 and deoxyribose anomeric protons. The resulting spectral simplification allows unambiguous assignments to be made on NOEs that otherwise may be difficult to distinguish. The deuteration procedure is demonstrated with the sequence d(CGTTATAATGCG).d(CGCATTATAACG), which has previously been assigned by traditional NOESY methods [Wemmer, D. E., Chou, S.-H., Hare, D. R., & Reid, B. R. (1984) Biochemistry 23, 2262-2268]. Although the assignment of this dodecadeoxynucleotide may be completed without deuteriation, several NOEs must be assigned indirectly because of degeneracies in the chemical shift of the purine H8 protons.(ABSTRACT TRUNCATED AT 250 WORDS)