可视化DNA和RNA双链体中类似瞬时沃森-克里克错配的结构
Visualizing transient Watson-Crick-like mispairs in DNA and RNA duplexes.
作者信息
Kimsey Isaac J, Petzold Katja, Sathyamoorthy Bharathwaj, Stein Zachary W, Al-Hashimi Hashim M
机构信息
Department of Biochemistry and Chemistry, Duke University Medical Center, Durham, North Carolina 27710, USA.
Department of Medical Biochemistry and Biophysics, Karolinska Institute, SE-171 77 Stockholm, Sweden.
出版信息
Nature. 2015 Mar 19;519(7543):315-20. doi: 10.1038/nature14227. Epub 2015 Mar 11.
Abstract
Rare tautomeric and anionic nucleobases are believed to have fundamental biological roles, but their prevalence and functional importance has remained elusive because they exist transiently, in low abundance, and involve subtle movements of protons that are difficult to visualize. Using NMR relaxation dispersion, we show here that wobble dG•dT and rG•rU mispairs in DNA and RNA duplexes exist in dynamic equilibrium with short-lived, low-populated Watson-Crick-like mispairs that are stabilized by rare enolic or anionic bases. These mispairs can evade Watson-Crick fidelity checkpoints and form with probabilities (10(-3) to 10(-5)) that strongly imply a universal role in replication and translation errors. Our results indicate that rare tautomeric and anionic bases are widespread in nucleic acids, expanding their structural and functional complexity beyond that attainable with canonical bases.
摘要
罕见的互变异构体和阴离子型核碱基被认为具有重要的生物学作用,但其普遍存在性和功能重要性一直难以捉摸,因为它们以低丰度短暂存在,且涉及难以可视化的质子细微移动。利用核磁共振弛豫色散,我们在此表明,DNA和RNA双链体中的摆动dG•dT和rG•rU错配与由罕见的烯醇式或阴离子型碱基稳定的短暂存在、低丰度的类沃森-克里克错配处于动态平衡。这些错配能够避开沃森-克里克保真度检查点,形成的概率(10^(-3)至10^(-5))强烈暗示其在复制和翻译错误中具有普遍作用。我们的结果表明,罕见的互变异构体和阴离子型碱基在核酸中广泛存在,将其结构和功能复杂性扩展到了超出由标准碱基所能达到的范围。
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