Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology, 8916-5, Takayama-cho, Ikoma, Nara, 630-0192, Japan.
Research Center for Biotechnology, Indonesian Institute of Sciences, Jl. Raya Bogor KM 46, Cibinong, 16911, Bogor, West Java, Indonesia.
Sci Rep. 2020 Apr 7;10(1):6015. doi: 10.1038/s41598-020-62890-3.
The biological functions of nitric oxide (NO) depend on its concentration, and excessive levels of NO induce various harmful situations known as nitrosative stress. Therefore, organisms possess many kinds of strategies to regulate the intracellular NO concentration and/or to detoxify excess NO. Here, we used genetic screening to identify a novel nitrosative stress tolerance gene, RIB1, encoding GTP cyclohydrolase II (GTPCH2), which catalyzes the first step in riboflavin biosynthesis. Our further analyses demonstrated that the GTPCH2 enzymatic activity of Rib1 is essential for RIB1-dependent nitrosative stress tolerance, but that riboflavin itself is not required for this tolerance. Furthermore, the reaction mixture of a recombinant purified Rib1 was shown to quench NO or its derivatives, even though formate or pyrophosphate, which are byproducts of the Rib1 reaction, did not, suggesting that the reaction product of Rib1, 2,5-diamino-6-(5-phospo-D-ribosylamino)-pyrimidin-4(3 H)-one (DARP), scavenges NO or its derivatives. Finally, it was revealed that 2,4,5-triamino-1H-pyrimidin-6-one, which is identical to a pyrimidine moiety of DARP, scavenged NO or its derivatives, suggesting that DARP reacts with NO generated via its pyrimidine moiety.
一氧化氮(NO)的生物学功能取决于其浓度,而过量的 NO 会引起各种称为硝化应激的有害情况。因此,生物体拥有多种策略来调节细胞内的 NO 浓度和/或解毒过量的 NO。在这里,我们使用遗传筛选来鉴定一种新的硝化应激耐受基因 RIB1,该基因编码 GTP 环化水解酶 II(GTPCH2),它催化核黄素生物合成的第一步。我们的进一步分析表明,Rib1 的 GTPCH2 酶活性对于依赖 Rib1 的硝化应激耐受是必需的,但这种耐受并不需要核黄素本身。此外,尽管 Rib1 反应的副产物甲酸盐或焦磷酸盐没有,重组纯化的 Rib1 的反应混合物被证明可以淬灭 NO 或其衍生物,这表明 Rib1 的反应产物 2,5-二氨基-6-(5-磷酸-D-核糖基氨基)嘧啶-4(3-H)-酮(DARP)淬灭了 NO 或其衍生物。最后,揭示了与 DARP 的嘧啶部分相同的 2,4,5-三氨基-1H-嘧啶-6-酮也可以淬灭 NO 或其衍生物,这表明 DARP 通过其嘧啶部分与生成的 NO 反应。
