Cryo-EM structure of an amyloid fibril formed by full-length human SOD1 reveals its conformational conversion

Liqiang Wang(Wuhan University), Yi Liang(Wuhan University), Mu-Ya Zhang(Wuhan University), Wen-Chang Xu(Wuhan University), Zhengzhi Wang(Wuhan University), Han‐Ye Yuan(Wuhan University), Xi Huang(Jinan University), Jie Chen(Wuhan University), Ping Yin(Huazhong Agricultural University), Bin Dai(Shanghai Jiao Tong University), Liangyu Zou(Jinan University), Cong Liu(Second Military Medical University), Dan Li(Shanghai Jiao Tong University), Delin Zhang(Huazhong Agricultural University), Kun Zhao(Chinese Academy of Sciences), Qiang Wang(Henan University), Yeyang Ma(Chinese Academy of Sciences)
Nature Communications
June 17, 2022
10.1038/s41467-022-31240-4
Cited by 49

Related Papers

Use of the Original, Modified, or New Intracerebral Hemorrhage Score to Predict Mortality and Morbidity After Intracerebral Hemorrhage
|Stroke|2003|342
Phase Separation of Disease-Associated SHP2 Mutants Underlies MAPK Hyperactivation
|Cell|2020|274
Structural basis for reversible amyloids of hnRNPA1 elucidates their role in stress granule assembly
|Nature Communications|2019|225
Cryo-EM structure of full-length α-synuclein amyloid fibril with Parkinson’s disease familial A53T mutation
|Cell Research|2020|149
Parkinson’s disease associated mutation E46K of α-synuclein triggers the formation of a distinct fibril structure
|Nature Communications|2020|141