McConnell B, Politowski D
Biophys Chem. 1984 Aug;20(1-2):135-48. doi: 10.1016/0301-4622(84)80013-7.
The use of buffer catalysts having a wide range of pK (dissociation) values (4-12) provides the first estimates of two generally useful empirical parameters of amino proton exchange in compounds of adenine and cytosine. These are a nucleobase amino group dissociation constant (pKD) and the 'encounter frequency' for proton transfer (kD), which can be used to predict amino proton exchange rates. Values of amino pKD fall in the range 8.6-9.4 for the unsubstituted nucleobases and their endocyclic N-methylated derivatives. Similar values of kD are obtained for all nucleobases (1 X 10(8) M-1 s-1). These constants were obtained from a statistical fit of second-order catalytic rate constants for amino proton exchange, measured by amino 1H-NMR lineshape at varying field frequencies (100, 300 and 360 MHz). These results confirm the requirement for buffer conjugate base formation and nucleobase protonation, but point to a different mechanism of exchange at low pH; most probably direct amino protonation for adenine, but not for cytosine compounds. Anionic buffer conjugate bases (phosphate and acetate) show a greater catalytic effect than neutral (nitrogen) bases, especially with cytosine compounds. The use of high concentrations of sodium perchlorate to sharpen amino 1H resonances of 1-methyladenosine is examined, with respect to chemical and rotational exchange and NMR line broadening.
使用具有广泛pK(解离)值(4 - 12)的缓冲催化剂,首次估算了腺嘌呤和胞嘧啶化合物中氨基质子交换的两个普遍有用的经验参数。这两个参数分别是核碱基氨基解离常数(pKD)和质子转移的“相遇频率”(kD),它们可用于预测氨基质子交换速率。对于未取代的核碱基及其内环N - 甲基化衍生物,氨基pKD值落在8.6 - 9.4范围内。所有核碱基的kD值相似(1×10⁸ M⁻¹ s⁻¹)。这些常数是通过对氨基质子交换的二级催化速率常数进行统计拟合得到的,该速率常数通过在不同场频率(100、300和360 MHz)下的氨基¹H - NMR线形测量。这些结果证实了形成缓冲共轭碱和核碱基质子化的必要性,但表明在低pH下存在不同的交换机制;对于腺嘌呤化合物,最可能是直接氨基质子化,但胞嘧啶化合物不是。阴离子缓冲共轭碱(磷酸盐和乙酸盐)比中性(氮)碱表现出更大的催化作用,尤其是对于胞嘧啶化合物。研究了使用高浓度高氯酸钠来锐化1 - 甲基腺苷的氨基¹H共振,涉及化学和旋转交换以及NMR线展宽。
