Perfecting prediction of mutational impact on the aggregation propensity of the ALS-associated hnRNPA2 prion-like protein

Cristina Batlle; María Rosario Fernández; Valentin Iglesias; Salvador Ventura

doi:10.1002/1873-3468.12698

Perfecting prediction of mutational impact on the aggregation propensity of the ALS-associated hnRNPA2 prion-like protein

Cristina Batlle, María Rosario Fernández, Valentin Iglesias, Salvador Ventura

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© 2017 Federation of European Biochemical Societies An increasing number of human proteins are being found to bear a prion-like domain (PrLD) driving the formation of membraneless compartments through liquid–liquid phase separation. Point mutations in these PrLDs promote the transition to an amyloid-like state. There has been much debate on whether this aberrant aggregation is caused by compositional or sequential changes. A recent extensive mutational study of the ALS-associated prion-like hnRNPA2 protein provides a framework to discriminate the molecular determinants behind pathogenic PrLDs aggregation. The effect of mutations on the aggregation propensity of hnRNPA2 is best predicted by combining their impact on PrLD amino acid composition and sequence-based amyloid propensity. This opens an avenue for the prediction of disease causing mutations in other human prion-like proteins.

Idioma original	Anglès
Pàgines (de-a)	1966-1971
Revista	FEBS Letters
Volum	591
Número	13
DOIs	https://doi.org/10.1002/1873-3468.12698
Estat de la publicació	Publicada - 1 de jul. 2017

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title = "Perfecting prediction of mutational impact on the aggregation propensity of the ALS-associated hnRNPA2 prion-like protein",

abstract = "{\textcopyright} 2017 Federation of European Biochemical Societies An increasing number of human proteins are being found to bear a prion-like domain (PrLD) driving the formation of membraneless compartments through liquid–liquid phase separation. Point mutations in these PrLDs promote the transition to an amyloid-like state. There has been much debate on whether this aberrant aggregation is caused by compositional or sequential changes. A recent extensive mutational study of the ALS-associated prion-like hnRNPA2 protein provides a framework to discriminate the molecular determinants behind pathogenic PrLDs aggregation. The effect of mutations on the aggregation propensity of hnRNPA2 is best predicted by combining their impact on PrLD amino acid composition and sequence-based amyloid propensity. This opens an avenue for the prediction of disease causing mutations in other human prion-like proteins.",

keywords = "amyloid, prion-like proteins, protein aggregation",

author = "Cristina Batlle and Fern{\'a}ndez, {Mar{\'i}a Rosario} and Valentin Iglesias and Salvador Ventura",

year = "2017",

month = jul,

day = "1",

doi = "10.1002/1873-3468.12698",

language = "English",

volume = "591",

pages = "1966--1971",

number = "13",

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TY - JOUR

T1 - Perfecting prediction of mutational impact on the aggregation propensity of the ALS-associated hnRNPA2 prion-like protein

AU - Batlle, Cristina

AU - Fernández, María Rosario

AU - Iglesias, Valentin

AU - Ventura, Salvador

PY - 2017/7/1

Y1 - 2017/7/1

N2 - © 2017 Federation of European Biochemical Societies An increasing number of human proteins are being found to bear a prion-like domain (PrLD) driving the formation of membraneless compartments through liquid–liquid phase separation. Point mutations in these PrLDs promote the transition to an amyloid-like state. There has been much debate on whether this aberrant aggregation is caused by compositional or sequential changes. A recent extensive mutational study of the ALS-associated prion-like hnRNPA2 protein provides a framework to discriminate the molecular determinants behind pathogenic PrLDs aggregation. The effect of mutations on the aggregation propensity of hnRNPA2 is best predicted by combining their impact on PrLD amino acid composition and sequence-based amyloid propensity. This opens an avenue for the prediction of disease causing mutations in other human prion-like proteins.

AB - © 2017 Federation of European Biochemical Societies An increasing number of human proteins are being found to bear a prion-like domain (PrLD) driving the formation of membraneless compartments through liquid–liquid phase separation. Point mutations in these PrLDs promote the transition to an amyloid-like state. There has been much debate on whether this aberrant aggregation is caused by compositional or sequential changes. A recent extensive mutational study of the ALS-associated prion-like hnRNPA2 protein provides a framework to discriminate the molecular determinants behind pathogenic PrLDs aggregation. The effect of mutations on the aggregation propensity of hnRNPA2 is best predicted by combining their impact on PrLD amino acid composition and sequence-based amyloid propensity. This opens an avenue for the prediction of disease causing mutations in other human prion-like proteins.

KW - amyloid

KW - prion-like proteins

KW - protein aggregation

U2 - 10.1002/1873-3468.12698

DO - 10.1002/1873-3468.12698

M3 - Article

SN - 0014-5793

VL - 591

SP - 1966

EP - 1971

JO - FEBS Letters

JF - FEBS Letters

IS - 13

ER -

Perfecting prediction of mutational impact on the aggregation propensity of the ALS-associated hnRNPA2 prion-like protein

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