Determination of conformational transition rates in the trp promoter by 1H NMR rotating-frame T1 and cross-relaxation rate measurements

Rotating-frame relaxation measurements have been used in conjunction with spin-spin relaxation rate constants to investigate a conformational transition previously observed in the -10 region of the trp promoter d(CGTACTAGTTAACTAGTACG)2 (Lefèvre, Lane, Jardetzky 1987). The transition is localised to the sub-sequence TAAC, and is in fast exchange on the chemical shift time-scale. The rate constant for the exchange process has been determined from measurements of the rotating-frame relaxation rate constant as a function of the spin-lock field strength, and is approximately 5000 s^–1 at 30 °C. Measurements have also been made as a function of temperature and in two different magnetic fields: the results are fully consistent with those expected for the exchange contribution in a two-site system. A similar transition has been observed in d(GTGATTGACAATTA).d(CACTAACTGTTAAT), which contains the –35 region of the trp promoter. This has been investigated in the same way, and has been found to undergo exchange at a faster rate under comparable conditions. In addition, the cross-relaxation rate constants for Ade C2H-Ade C2H pairs have been measured as a function of temperature, and these indicate that certain internuclear distances in YAAY subsequences increase with increasing temperature. These changes in distance are consistent with a flattening of propellor twist of the AT base-pairs. The occurrence of conformational transitions in YAAY subsequences depends on the flanking sequence.Correspondence to: A. N. Lane