Bendel P, James T L
Proc Natl Acad Sci U S A. 1983 Jun;80(11):3284-6. doi: 10.1073/pnas.80.11.3284.
Proton NMR experiments on an intact plasmid supercoiled DNA molecule are reported. Spectra of the hydrogen-bonded exchangeable imino protons and nonexchangeable aromatic protons of pIns36 (7,200 base pairs; Mr 5 x 10(6)) were examined at 240 and 360 MHz. In contrast to linear DNA of comparable size in which the signals from these protons are broadened almost beyond detection, the supercoiled DNA exhibits a remarkably well-resolved spectrum in the range 12-15 ppm, with linewidths characteristic of linear DNA molecules with molecular weight nearly two orders of magnitude smaller. These results imply an extraordinary degree of mobility in accord with our earlier discovery of unusually long 31P spin-spin relaxation times in the supercoiled molecule. Alterations in the chemical shift of the imino proton resonance positions in supercoiled DNA compared to linear DNA imply that the structure is modified in the A . T base pairs with at least two distinct structures apparent from the spectrum. However, little or no alteration is evident in the resonances due to the G . C base pairs.
报道了对完整的质粒超螺旋DNA分子进行的质子核磁共振实验。在240和360兆赫下检测了pIns36(7200个碱基对;分子量5×10⁶)的氢键结合可交换亚氨基质子和不可交换芳香族质子的光谱。与大小相当的线性DNA不同,在后者中这些质子的信号几乎展宽到无法检测,而超螺旋DNA在12 - 15 ppm范围内呈现出分辨率极高的光谱,其线宽具有分子量几乎小两个数量级的线性DNA分子的特征。这些结果意味着超螺旋分子具有极高的迁移率,这与我们早期发现的超螺旋分子中异常长的³¹P自旋 - 自旋弛豫时间一致。与线性DNA相比,超螺旋DNA中亚氨基质子共振位置的化学位移变化表明,A·T碱基对的结构发生了改变,从光谱中至少可以看出两种不同的结构。然而,G·C碱基对的共振几乎没有明显变化。