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Coding mutations in NUS1 contribute to Parkinson’s disease
Author(s) -
Jifeng Guo,
Lu Zhang,
Kai Li,
Junpu Mei,
Jin Xue,
Jia Chen,
Xia Tang,
Lu Shen,
Hong Jiang,
Chao Chen,
Hui Guo,
Xueli Wu,
Silong Sun,
Qian Xu,
Qiying Sun,
Piu Chan,
Huifang Shang,
Tao Wang,
Guohua Zhao,
Jingyu Liu,
Xuefeng Xie,
Yiqi Jiang,
Zhenhua Liu,
Yuwen Zhao,
Zuobin Zhu,
JiaDa Li,
Zhengmao Hu,
Xinxiang Yan,
Xiaodong Fang,
Guanghui Wang,
Fengyu Zhang,
Kun Xia,
Chunyu Liu,
Xiongwei Zhu,
Zhenyu Yue,
Shuai Cheng Li,
Huaibin Cai,
Zhuohua Zhang,
Ranhui Duan,
Beisha Tang
Publication year - 2018
Publication title -
proceedings of the national academy of sciences
Language(s) - English
Resource type - Journals
eISSN - 1091-6490
pISSN - 0027-8424
DOI - 10.1073/pnas.1809969115
Subject(s) - nonsynonymous substitution , genetics , lrrk2 , pathogenesis , parkinson's disease , biology , gene , disease , mutation , genetic association , coding region , bioinformatics , medicine , single nucleotide polymorphism , genotype , pathology , immunology , genome
Significance Parkinson’s disease (PD) is the second most common neurodegenerative disorder in the world. Several common and rare genetic risk variants associated with PD pathogenesis have been identified, predominantly in persons of European descent, but the genetic contributions to familial PD are largely unknown for Han Chinese. Here, we present a trio-based study to explore the association between de novo-altered genes and early onset PD in Han Chinese. We found that the 12 genes with de novo mutations were biologically connected to each other and likely to be disease-risk genes. Further analyses using two independent cohorts revealed thatNUS1 harbored more rare nonsynonymous variants, and subsequent functional studies onDrosophila proved its potential link to PD pathogenesis.

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