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KMID : 0624620090420090541
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BMB Reports
2009 Volume.42 No. 9 p.541 ~ p.551
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Mechanism of amyloidogenesis: nucleation-dependent fibrillation versus double-concerted fibrillation
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Bhak Ghi-Bom
Choe Young-Jun
Paik Seung-R
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Abstract
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Amyloidogenesis defines a condition in which a soluble and innocuous protein turns to insoluble protein aggregates known as amyloid fibrils. This protein suprastructure derived via chemically specific molecular self-assembly process has been commonly observed in various neurodegenerative disorders such as Alzheimer¡¯s, Parkinson¡¯s, and Prion diseases. Although the major culprit for the cellular degeneration in the diseases remains unsettled, amyloidogenesis is considered to be etiologically involved. Recent recognition of fibrillar polymorphism observed mostly from in vitro amyloidogeneses may indicate that multiple mechanisms for the amyloid fibril formation would be operated. Nucleation-dependent fibrillation is the prevalent model for assessing the self-assembly process. Following thermodynamically unfavorable seed formation, monomeric polypeptides bind to the seeds by exerting structural adjustments to the template, which leads to accelerated amyloid fibril formation. In this review, we propose another in vitro model of amyloidogenesis named double-concerted fibrillation. Here, two consecutive assembly processes of monomers and subsequent oligomeric species are responsible for the amyloid fibril formation of ¥á-synuclein, a pathological component of Parkinson¡¯s disease, following structural rearrangement within the oligomers which then act as a growing unit for the fibrillation.
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KEYWORD
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Amyloidogenesis, Fibrillar polymorphism, Nucleationdependent fibrillation, Protein self-assembly, Template-dependent and template-independent fibrillations
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