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1RVS

STRUCTURE OF TRANSTHYRETIN IN AMYLOID FIBRILS DETERMINED BY SOLID-STATE MAGIC ANGLE SPINNING NMR

Summary for 1RVS
Entry DOI10.2210/pdb1rvs/pdb
DescriptorTransthyretin (1 entity in total)
Functional Keywordstransthyretin, ttr, amyloid, fibril, de novo protein
Biological sourceRattus norvegicus (Norway rat)
Cellular locationSecreted: P02767
Total number of polymer chains1
Total formula weight1198.37
Authors
Jaroniec, C.P.,Macphee, C.E.,Bajaj, V.S.,Mcmahon, M.T.,Dobson, C.M.,Griffin, R.G. (deposition date: 2003-12-14, release date: 2004-01-20, Last modification date: 2024-05-01)
Primary citationJaroniec, C.P.,MacPhee, C.E.,Bajaj, V.S.,McMahon, M.T.,Dobson, C.M.,Griffin, R.G.
High-resolution molecular structure of a peptide in an amyloid fibril determined by magic angle spinning NMR spectroscopy
Proc.Natl.Acad.Sci.USA, 101:711-716, 2004
Cited by
PubMed Abstract: Amyloid fibrils are self-assembled filamentous structures associated with protein deposition conditions including Alzheimer's disease and the transmissible spongiform encephalopathies. Despite the immense medical importance of amyloid fibrils, no atomic-resolution structures are available for these materials, because the intact fibrils are insoluble and do not form diffraction-quality 3D crystals. Here we report the high-resolution structure of a peptide fragment of the amyloidogenic protein transthyretin, TTR(105-115), in its fibrillar form, determined by magic angle spinning NMR spectroscopy. The structure resolves not only the backbone fold but also the precise conformation of the side chains. Nearly complete (13)C and (15)N resonance assignments for TTR(105-115) formed the basis for the extraction of a set of distance and dihedral angle restraints. A total of 76 self-consistent experimental measurements, including 41 restraints on 19 backbone dihedral angles and 35 (13)C-(15)N distances between 3 and 6 A were obtained from 2D and 3D NMR spectra recorded on three fibril samples uniformly (13)C, (15)N-labeled in consecutive stretches of four amino acids and used to calculate an ensemble of peptide structures. Our results indicate that TTR(105-115) adopts an extended beta-strand conformation in the amyloid fibrils such that both the main- and side-chain torsion angles are close to their optimal values. Moreover, the structure of this peptide in the fibrillar form has a degree of long-range order that is generally associated only with crystalline materials. These findings provide an explanation of the unusual stability and characteristic properties of this form of polypeptide assembly.
PubMed: 14715898
DOI: 10.1073/pnas.0304849101
PDB entries with the same primary citation
Experimental method
SOLID-STATE NMR
Structure validation

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数据于2024-11-06公开中

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