Weinfeld M, Soderlind K J, Buchko G W
Radiobiology Program, Cross Cancer Institute, Edmonton, Alberta, Canada.
Nucleic Acids Res. 1993 Feb 11;21(3):621-6. doi: 10.1093/nar/21.3.621.
Stacking between aromatic amino acids and nucleic acid bases may play an important role in the interaction of enzymes with nucleic acid substrates. In such circumstances, disruption of base aromaticity would be expected to decrease enzyme activity on the modified substrates. We have examined the requirement for DNA base aromaticity of five enzymes that act on single-stranded DNA, T4 polynucleotide kinase, nucleases P1 and S1, and snake venom and calf spleen phosphodiesterases, by comparing their kinetics of reaction with a series of dinucleoside monophosphates containing thymidine or a ring-saturated derivative. The modified substrates contained either cis-5R,6S-di-hydro-5,6-dihydroxythymidine (thymidine glycol) or a mixture of the 5R and 5S isomers of 5,6-dihydrothymidine. It was observed that for all the enzymes, except snake venom phosphodiesterase, the parent molecules were better substrates than the dihydrothymidine derivatives, while the thymidine glycol compounds were significantly poorer substrates. Snake venom phosphodiesterase acted on the unmodified and dihydrothymidine molecules at almost the same rate. These results imply that for all the remaining enzymes base aromaticity is a factor in enzyme-substrate interaction, but that additional factors must contribute to the poorer substrate capacity of the thymidine glycol compounds. The influence of the stereochemistry of the dihydrothymidine derivatives was also investigated. We observed that nuclease P1 and S1 hydrolysed the molecules containing 5R-dihydrothymidine approximately 50-times faster than those containing the S-isomer. The other enzymes displayed no measurable stereospecificity.
芳香族氨基酸与核酸碱基之间的堆积作用可能在酶与核酸底物的相互作用中发挥重要作用。在这种情况下,碱基芳香性的破坏预计会降低酶对修饰后底物的活性。我们通过比较五种作用于单链DNA的酶(T4多核苷酸激酶、核酸酶P1和S1以及蛇毒和小牛脾磷酸二酯酶)与一系列含有胸腺嘧啶或环饱和衍生物的二核苷单磷酸的反应动力学,研究了它们对DNA碱基芳香性的需求。修饰后的底物含有顺式-5R,6S-二氢-5,6-二羟基胸腺嘧啶(胸腺嘧啶二醇)或5,6-二氢胸腺嘧啶的5R和5S异构体的混合物。结果发现,除蛇毒磷酸二酯酶外,所有酶的天然底物都比二氢胸腺嘧啶衍生物更好,而胸腺嘧啶二醇化合物作为底物则明显较差。蛇毒磷酸二酯酶对未修饰的和二氢胸腺嘧啶分子的作用速率几乎相同。这些结果表明,对于所有其余的酶来说,碱基芳香性是酶与底物相互作用的一个因素,但胸腺嘧啶二醇化合物较差的底物能力肯定还有其他因素在起作用。我们还研究了二氢胸腺嘧啶衍生物的立体化学影响。我们观察到,核酸酶P1和S1水解含有5R-二氢胸腺嘧啶的分子的速度比含有S-异构体的分子快约50倍。其他酶没有表现出可测量的立体特异性。