The Relation between ?-Helical Conformation and Amyloidogenicity.
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ABSTRACT: Amyloid fibrils are stable aggregates of misfolded proteins and polypeptides that are insoluble and resistant to protease activity. Abnormal formation of amyloid fibrils in vivo may lead to neurodegenerative disorders and other systemic amyloidosis, such as Alzheimer's, Parkinson's, and atherosclerosis. Because of their clinical importance, amyloids are under intense scientific research. It is believed that short polypeptide segments within proteins are responsible for the transformation of correctly folded proteins into parts of larger amyloid fibrils and that this transition is modulated by environmental factors, such as pH, salt concentration, interaction with the cell membrane, and interaction with metal ions. Most studies on amyloids focus on the amyloidogenic sequences. The focus of this study is on the structure of the amyloidogenic ?-helical segments because the ?-helical secondary structure has been recognized to be a key player in different stages of the amyloidogenesis process. We have previously shown that the ?-helical conformation may be expressed by two parameters (? and ?) that form orthogonal coordinates based on the Ramachandran dihedrals (? and ?) and provide an illuminating interpretation of the ?-helical conformation. By performing statistical analysis on ?-helical conformations found in the Protein Data Bank, an apparent relation between ?-helical conformation, as expressed by ? and ?, and amyloidogenicity is revealed. Remarkably, random amino acid sequences, whose helical structures were obtained from the most probable dihedral angles, revealed the same dependency of amyloidogenicity, suggesting the importance of ?-helical structure as opposed to sequence.
SUBMITTER: Haimov B
PROVIDER: S-EPMC5937719 | biostudies-literature | 2018 Apr
REPOSITORIES: biostudies-literature
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