Mutations linked to neurological disease enhance self-association of low-complexity protein sequences-Reference-Cited by-同舟云学术

Mutations linked to neurological disease enhance self-association of low-complexity protein sequences

Published:2022-07 Issue:6601 Volume:377 Page:
ISSN:0036-8075
Container-title:Science
language:en
Short-container-title:Science

Author:

Zhou Xiaoming¹^ORCID,Sumrow Lily¹^ORCID,Tashiro Kyuto¹^ORCID,Sutherland Lillian¹^ORCID,Liu Daifei¹^ORCID,Qin Tian¹^ORCID,Kato Masato¹²^ORCID,Liszczak Glen¹^ORCID,McKnight Steven L.¹^ORCID

Affiliation:

1. Department of Biochemistry, University of Texas Southwestern Medical Center, Dallas, TX 75390, USA.

2. Institute for Quantum Life Science, National Institutes for Quantum and Radiological Science and Technology, Inage, Chiba, 263-8555, Japan.

Abstract

Protein domains of low sequence complexity do not fold into stable, three-dimensional structures. Nevertheless, proteins with these sequences assist in many aspects of cell organization, including assembly of nuclear and cytoplasmic structures not surrounded by membranes. The dynamic nature of these cellular assemblies is caused by the ability of low-complexity domains (LCDs) to transiently self-associate through labile, cross-β structures. Mechanistic studies useful for the study of LCD self-association have evolved over the past decade in the form of simple assays of phase separation. Here, we have used such assays to demonstrate that the interactions responsible for LCD self-association can be dictated by labile protein structures poised close to equilibrium between the folded and unfolded states. Furthermore, missense mutations causing Charcot-Marie-Tooth disease, frontotemporal dementia, and Alzheimer’s disease manifest their pathophysiology in vitro and in cultured cell systems by enhancing the stability of otherwise labile molecular structures formed upon LCD self-association.

Publisher

American Association for the Advancement of Science (AAAS)

Subject

Multidisciplinary

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