2010
DOI: 10.1063/1.3447891
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Nucleation of amyloid fibrils

Abstract: We consider nucleation of amyloid fibrils in the case when the process occurs by the mechanism of direct polymerization of practically fully extended protein segments, i.e. -strands, into -sheets. Applying the classical nucleation theory, we derive a general expression for the work to form a nanosized amyloid fibril (protofilament) constituted of successively layered -sheets. Analysis of this expression reveals that with increasing its size, the fibril transforms from one-dimensional into two-dimensional ag… Show more

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Cited by 77 publications
(126 citation statements)
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“…3 In particular, the kinetics of fibril formation have been extensively studied [4][5][6][7][8][9] to understand the stochasticity of disease onset and the lifetimes of metastable states that are thought to play a role in disease progression. 10 These kinetics are difficult to study because the timescales for disease progression, typically years to decades, are prohibitive for direct biophysical studies under physiological conditions.…”
Section: Introductionmentioning
confidence: 99%
“…3 In particular, the kinetics of fibril formation have been extensively studied [4][5][6][7][8][9] to understand the stochasticity of disease onset and the lifetimes of metastable states that are thought to play a role in disease progression. 10 These kinetics are difficult to study because the timescales for disease progression, typically years to decades, are prohibitive for direct biophysical studies under physiological conditions.…”
Section: Introductionmentioning
confidence: 99%
“…This peculiar behaviour is a departure from the classical behaviour predicted by CNT. The transition values correspond with those predicted by Kashchiev et al 20,22 for jumps in the solubility of amyloid fibril, where each supersaturation region is defined by the number of rows a cluster requires in order to grow irreversibly. A general formula for the transition supersaturations can be derived; 20 S i = 2ψ y /i where i is the number of rows in a cluster, a row being defined as growth in the strong bonding direction, x.…”
mentioning
confidence: 99%
“…The transition values correspond with those predicted by Kashchiev et al 20,22 for jumps in the solubility of amyloid fibril, where each supersaturation region is defined by the number of rows a cluster requires in order to grow irreversibly. A general formula for the transition supersaturations can be derived; 20 S i = 2ψ y /i where i is the number of rows in a cluster, a row being defined as growth in the strong bonding direction, x. Above each S i a cluster with i rows can grow irreversibly, hence above S 1 = 2ψ y /1 = 2 all clusters with one row can grow to macroscopic size, which defines this region as the metanucleation range, where each single molecule acts as a nucleus and hence nucleation is instantaneous.…”
mentioning
confidence: 99%
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