Crystal structure of the human prion protein reveals a mechanism for oligomerization

被引：0

作者：

Karen J. Knaus

Manuel Morillas

Wieslaw Swietnicki

Michael Malone

Witold K. Surewicz

Vivien C. Yee

机构：

[1] Lerner Research Institute,Department of Molecular Cardiology and Center for Structural Biology

[2] Cleveland Clinic Foundation,Department of Chemistry

[3] Cleveland State University,Department of Pathology

[4] Case Western Reserve University,Department of Pharmacology

[5] Case Western Reserve University,Department of Chemistry

[6] Case Western Reserve University,Department of Physiology and Biophysics

[7] Case Western Reserve University,undefined

来源：

Nature Structural Biology | 2001年 / 8卷

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D O I：

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学科分类号：

摘要：

The pathogenesis of transmissible encephalopathies is associated with the conversion of the cellular prion protein, PrPC, into a conformationally altered oligomeric form, PrPSc. Here we report the crystal structure of the human prion protein in dimer form at 2 Å resolution. The dimer results from the three-dimensional swapping of the C-terminal helix 3 and rearrangement of the disulfide bond. An interchain two-stranded antiparallel β-sheet is formed at the dimer interface by residues that are located in helix 2 in the monomeric NMR structures. Familial prion disease mutations map to the regions directly involved in helix swapping. This crystal structure suggests that oligomerization through 3D domain-swapping may constitute an important step on the pathway of the PrPC → PrPSc conversion.

引用

页码：770 / 774

页数：4

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