利用超高分辨率中子蛋白质晶体学直接观察氢原子的动态和相互作用。
Direct observation of hydrogen atom dynamics and interactions by ultrahigh resolution neutron protein crystallography.
机构信息
Department of Chemistry, University of Toledo, Toledo, OH 43606, USA.
出版信息
Proc Natl Acad Sci U S A. 2012 Sep 18;109(38):15301-6. doi: 10.1073/pnas.1208341109. Epub 2012 Sep 4.
Abstract
The 1.1 Å, ultrahigh resolution neutron structure of hydrogen/deuterium (H/D) exchanged crambin is reported. Two hundred ninety-nine out of 315, or 94.9%, of the hydrogen atom positions in the protein have been experimentally derived and resolved through nuclear density maps. A number of unconventional interactions are clearly defined, including a potential O─H…π interaction between a water molecule and the aromatic ring of residue Y44, as well as a number of potential C─H…O hydrogen bonds. Hydrogen bonding networks that are ambiguous in the 0.85 Å ultrahigh resolution X-ray structure can be resolved by accurate orientation of water molecules. Furthermore, the high resolution of the reported structure has allowed for the anisotropic description of 36 deuterium atoms in the protein. The visibility of hydrogen and deuterium atoms in the nuclear density maps is discussed in relation to the resolution of the neutron data.
摘要
报道了氢/氘(H/D)交换角豆素的 1.1 Å、超高分辨率中子结构。通过核密度图,已经实验得出并解析了蛋白质中 315 个氢原子位置中的 299 个,占 94.9%。明确定义了一些非常规相互作用,包括水分子和残基 Y44 的芳环之间可能存在的 O─H…π 相互作用,以及一些可能的 C─H…O 氢键。在 0.85 Å 超高分辨率 X 射线结构中不明确的氢键网络可以通过水分子的准确取向来解决。此外,报道结构的高分辨率允许对蛋白质中的 36 个氘原子进行各向异性描述。还讨论了在核密度图中可见氢和氘原子与中子数据分辨率的关系。
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