In the originally published version of this article, two co-authors, Charlotte M. Fare and James Shorter, were mistakenly excluded from the author list. The article with a corrected author list and author contributions section now appears online. The authors apologize for this error.
. Author manuscript; available in PMC: 2021 Jan 8.
Published in final edited form as: Mol Cell. 2020 Dec 17;80(6):1139. doi: 10.1016/j.molcel.2020.11.031
ALS/FTLD-Linked Mutations in FUS Glycine Residues Cause Accelerated Gelation and Reduced Interactions with Wild-Type FUS
Kevin Rhine
, Monika A Makurath
, James Liu
, Sophie Skanchy
, Christian Lopez
, Kevin F Catalan
, Ye Ma
, Charlotte M Fare
, James Shorter
, Taekjip Ha
, Yann R Chemla
, Sua Myong
*
Kevin Rhine
Find articles by Kevin Rhine
Monika A Makurath
Find articles by Monika A Makurath
James Liu
Find articles by James Liu
Sophie Skanchy
Find articles by Sophie Skanchy
Christian Lopez
Find articles by Christian Lopez
Kevin F Catalan
Find articles by Kevin F Catalan
Ye Ma
Find articles by Ye Ma
Charlotte M Fare
Find articles by Charlotte M Fare
James Shorter
Find articles by James Shorter
Taekjip Ha
Find articles by Taekjip Ha
Yann R Chemla
Find articles by Yann R Chemla
Sua Myong
Find articles by Sua Myong
*
Correspondence: smyong@jhu.edu
PMCID: PMC7788473 NIHMSID: NIHMS1657055 PMID: 33338404
The publisher's version of this article is available at Mol Cell
This corrects the article "ALS/FTLD-linked mutations in FUS glycine residues cause accelerated gelation and reduced interactions with wild-type FUS" on page 666.