Title of article
Deuterium-proton exchange on the native wild-type transthyretin tetramer identifies the stable core of the individual subunits and indicates mobility at the subunit interface
Author/Authors
Kai Liu، نويسنده , , Ho S Cho، نويسنده , , David W Hoyt، نويسنده , , Tuan N Nguyen، نويسنده , , Peter Olds، نويسنده , , Jeffery W Kelly، نويسنده , , David E. Wemmer، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2000
Pages
11
From page
555
To page
565
Abstract
Transthyretin is a human protein capable of amyloid formation that is believed to cause several types of amyloid disease, depending on the sequence deposited. Previous studies have demonstrated that wild-type transthyretin (TTR), although quite stable, forms amyloid upon dissociation from its native tetrameric form into monomers with an altered conformation. Many naturally occurring single-site variants of TTR display decreased stability in vitro, manifested by the early onset familial amyloid diseases in vivo. Only subtle structural changes were observed in X-ray crystallographic structures of these disease associated variants. In this study, the stability of the wild-type TTR tetramer was investigated at the residue-resolution level by monitoring 2H-H exchange via NMR spectroscopy. The measured protection factors for slowly-exchanging amide hydrogen atoms reveal a stable core consisting of strands A, B, E, F, and interestingly, the loop between strands A and B. In addition, the faster exchange of amide groups from residues at the subunit interfaces suggests unexpected mobility in these regions. This information is crucial for future comparisons between disease-associated and wild-type tetramers. Such studies can directly address the regions of TTR that become destabilized as a consequence of single amino acid substitutions, providing clues to aspects of TTR amyloidogenesis.
Keywords
transthyretin , amyloid , Hydrogen exchange , NMR spectroscopy , protection factor
Journal title
Journal of Molecular Biology
Serial Year
2000
Journal title
Journal of Molecular Biology
Record number
1240326
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