金属离子介导的ZTP核开关核碱基识别。

Chemistry & biology Pub Date : 2015-07-23 Epub Date: 2015-07-02 DOI:10.1016/j.chembiol.2015.06.007

Jeremiah J Trausch, Joan G Marcano-Velázquez, Michal M Matyjasik, Robert T Batey

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引用次数: 43

摘要

ZTP核糖开关是一个广泛存在的调节rna家族，当细胞内ZTP或ZMP水平升高时，它会上调新生嘌呤合成。作为嘌呤生物合成的重要中间体，ZMP也代表了n10 -甲酰基四氢叶酸的浓度，而n10 -甲酰基四氢叶酸是单碳代谢的关键成分。在这里，我们以1.80 Å的分辨率报道了与ZMP结合的ZTP核糖开关的结构。RNA包含两个亚结构域，通过一个远程假结聚集在一起，通过螺旋-螺旋包装进一步稳定。ZMP通过与配体的碱基、核糖和磷酸部分的一系列相互作用结合在RNA的亚结构域界面上。rna识别核碱基的独特之处在于，Z碱基与两个主磷酸结合的镁离子在球内配位。这种相互作用加上主链的空间位阻，使其比化学上类似的化合物(如ATP/AMP)具有特异性。

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Metal Ion-Mediated Nucleobase Recognition by the ZTP Riboswitch.

The ZTP riboswitch is a widespread family of regulatory RNAs that upregulate de novo purine synthesis in response to increased intracellular levels of ZTP or ZMP. As an important intermediate in purine biosynthesis, ZMP also serves as a proxy for the concentration of N10-formyl-tetrahydrofolate, a key component of one-carbon metabolism. Here, we report the structure of the ZTP riboswitch bound to ZMP at a resolution of 1.80 Å. The RNA contains two subdomains brought together through a long-range pseudoknot further stabilized through helix-helix packing. ZMP is bound at the subdomain interface of the RNA through a set of interactions with the base, ribose sugar, and phosphate moieties of the ligand. Unique to nucleobase recognition by RNAs, the Z base is inner-sphere coordinated to a magnesium cation bound by two backbone phosphates. This interaction, along with steric hindrance by the backbone, imparts specificity over chemically similar compounds such as ATP/AMP.

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来源期刊

Chemistry & biology 生物-生化与分子生物学

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审稿时长

4-8 weeks