The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease

The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease

A linear increase in the concentration of inert macromolecules with time is incorporated into simple excluded volume models for protein condensation or fibrillation. Such models predict a long latent period during which no significant amount of protein aggregates, followed by a steep increase in th...

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Main Author: Allen P. Minton
Format: Article
Language:English
Published: Frontiers Media S.A. 2014-08-01
Series:Frontiers in Physics
Subjects:
parkinsonism
Alzheimer's dementia
excluded volume
protein condensation
protein fibrillation
Online Access:http://journal.frontiersin.org/Journal/10.3389/fphy.2014.00048/full
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spelling doaj-7f5bdecc2752400b844d847c5e05a4032020-11-25T00:10:50ZengFrontiers Media S.A.Frontiers in Physics2296-424X2014-08-01210.3389/fphy.2014.00048104550The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative diseaseAllen P. Minton0National Institute of Diabetes and Digestive and Kidney Diseases, National Institutes of HealthA linear increase in the concentration of inert macromolecules with time is incorporated into simple excluded volume models for protein condensation or fibrillation. Such models predict a long latent period during which no significant amount of protein aggregates, followed by a steep increase in the total amount of aggregate. The elapsed time at which these models predict half-conversion of model protein to aggregate varies by less than a factor of two when the intrinsic rate constant for condensation or fibril growth of the protein is varied over many orders of magnitude. It is suggested that this concept can explain why the symptoms of neurodegenerative diseases associated with the aggregation of very different proteins and peptides appear at approximately the same advanced age in humans.http://journal.frontiersin.org/Journal/10.3389/fphy.2014.00048/fullparkinsonismAlzheimer's dementiaexcluded volumeprotein condensationprotein fibrillation
collection DOAJ
language English
format Article
sources DOAJ
author Allen P. Minton
spellingShingle Allen P. Minton
The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
Frontiers in Physics
parkinsonism
Alzheimer's dementia
excluded volume
protein condensation
protein fibrillation
author_facet Allen P. Minton
author_sort Allen P. Minton
title The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
title_short The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
title_full The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
title_fullStr The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
title_full_unstemmed The effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
title_sort effect of time-dependent macromolecular crowding on the kinetics of protein aggregation: a simple model for the onset of age-related neurodegenerative disease
publisher Frontiers Media S.A.
series Frontiers in Physics
issn 2296-424X
publishDate 2014-08-01
description A linear increase in the concentration of inert macromolecules with time is incorporated into simple excluded volume models for protein condensation or fibrillation. Such models predict a long latent period during which no significant amount of protein aggregates, followed by a steep increase in the total amount of aggregate. The elapsed time at which these models predict half-conversion of model protein to aggregate varies by less than a factor of two when the intrinsic rate constant for condensation or fibril growth of the protein is varied over many orders of magnitude. It is suggested that this concept can explain why the symptoms of neurodegenerative diseases associated with the aggregation of very different proteins and peptides appear at approximately the same advanced age in humans.
topic parkinsonism
Alzheimer's dementia
excluded volume
protein condensation
protein fibrillation
url http://journal.frontiersin.org/Journal/10.3389/fphy.2014.00048/full
work_keys_str_mv AT allenpminton theeffectoftimedependentmacromolecularcrowdingonthekineticsofproteinaggregationasimplemodelfortheonsetofagerelatedneurodegenerativedisease
AT allenpminton effectoftimedependentmacromolecularcrowdingonthekineticsofproteinaggregationasimplemodelfortheonsetofagerelatedneurodegenerativedisease
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