Parthasarathy R, Malik M, Fridey S M
Proc Natl Acad Sci U S A. 1982 Dec;79(23):7292-6. doi: 10.1073/pnas.79.23.7292.
In order to understand why DNA and RNA have the 3'-5' and not the 2'-5' link and to delineate the stereochemistry of the 2'-5' phosphodiester links, we crystallized and carried out a very accurate x-ray diffraction analysis of A2 p5'C, an analog of A2' p5'A. Contrary to numerous reports in the literature that conclude that the tendency for 2'-5' nucleotides to stack intramolecularly is stronger than for 3'-5' counterparts, we find hardly any intramolecular base stacking for this molecule but find an intramolecular "stacking" of the ribose oxygen-4' of cytidine on top of the adenine ring. Although A2' p5'C shows the standard conformational features usually found for 3'-5' nucleotides, the overall stereochemistry of 2'-5' nucleotides is quite different because the 2' link orients the backbone inwards to the bases unlike the 3' and 5' links that orient it away from the bases. With the conformational features found for A2' p5'C, it is possible to build a very compact right-handed single-stranded helix but not a double helix. Such a preference for single-stranded helices may be the reason for the absence of 2'-5' bonds in DNA and RNA even though the 2'-5' bonds are formed more readily then 3'-5' bonds.
为了理解为何DNA和RNA具有3'-5'连接而非2'-5'连接,并阐明2'-5'磷酸二酯连接的立体化学,我们对A2' p5'A的类似物A2 p5'C进行了结晶,并开展了非常精确的X射线衍射分析。与文献中众多得出2'-5'核苷酸分子内堆积倾向强于3'-5'对应物的报道相反,我们发现该分子几乎不存在分子内碱基堆积,而是发现胞苷的核糖4'-氧在腺嘌呤环上方存在分子内“堆积”。尽管A2' p5'C展现出通常在3'-5'核苷酸中发现的标准构象特征,但2'-5'核苷酸的整体立体化学却大不相同,因为2'连接使主链向碱基内部定向,这与使主链远离碱基的3'和5'连接不同。基于在A2' p5'C中发现的构象特征,可以构建出非常紧凑的右手单链螺旋,但无法构建出双链螺旋。对单链螺旋的这种偏好可能就是DNA和RNA中不存在2'-5'键的原因,即便2'-5'键比3'-5'键更容易形成。