温度诱导的 A-DNA 中金属离子取代磷酸质子的中子结构捕获。
Temperature-Induced Replacement of Phosphate Proton with Metal Ion Captured in Neutron Structures of A-DNA.
机构信息
Neutron Scattering Division, Neutron Sciences Directorate, Oak Ridge National Laboratory, Oak Ridge, TN 37922, USA.
Large Scale Structures Group, Institut Laue-Langevin, Grenoble 38000, France.
出版信息
Structure. 2018 Dec 4;26(12):1645-1650.e3. doi: 10.1016/j.str.2018.08.001. Epub 2018 Sep 20.
Nucleic acids can fold into well-defined 3D structures that help determine their function. Knowing precise nucleic acid structures can also be used for the design of nucleic acid-based therapeutics. However, locations of hydrogen atoms, which are key players of nucleic acid function, are normally not determined with X-ray crystallography. Accurate determination of hydrogen atom positions can provide indispensable information on protonation states, hydrogen bonding, and water architecture in nucleic acids. Here, we used neutron crystallography in combination with X-ray diffraction to obtain joint X-ray/neutron structures at both room and cryo temperatures of a self-complementary A-DNA oligonucleotide d[GTGG(C)CAC] containing 2'-SeCH modification on Cyt5 (C) at pH 5.6. We directly observed protonation of a backbone phosphate oxygen of Ade7 at room temperature. The proton is replaced with hydrated Mg upon cooling the crystal to 100 K, indicating that metal binding is favored at low temperature, whereas proton binding is dominant at room temperature.
核酸可以折叠成明确的 3D 结构,这些结构有助于确定它们的功能。了解精确的核酸结构也可用于设计基于核酸的治疗方法。然而,在 X 射线晶体学中通常无法确定氢原子的位置,氢原子是核酸功能的关键参与者。准确确定氢原子的位置可以提供关于核酸中质子化状态、氢键和水结构的不可或缺的信息。在这里,我们使用中子晶体学结合 X 射线衍射,在室温及低温下获得了一个自我互补的 A-DNA 寡核苷酸 d[GTGG(C)CAC]的 X 射线/中子联合结构,该寡核苷酸在 Cyt5 (C)上含有 2'-SeCH 修饰,在 pH 值为 5.6 时。我们在室温下直接观察到 Ade7 骨架磷酸氧的质子化。当将晶体冷却至 100 K 时,质子被水化的 Mg 取代,这表明金属结合在低温下更有利,而在室温下质子结合占主导地位。
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