Author
Listed:
- Alexander X. Jones
(Peking University)
- Yong Cao
(Peking University
National Institute of Biological Sciences (NIBS))
- Yu-Liang Tang
(Peking University)
- Jian-Hua Wang
(National Institute of Biological Sciences (NIBS))
- Yue-He Ding
(National Institute of Biological Sciences (NIBS))
- Hui Tan
(Peking University)
- Zhen-Lin Chen
(Institute of Computing Technology, CAS
University of Chinese Academy of Sciences)
- Run-Qian Fang
(Institute of Computing Technology, CAS
University of Chinese Academy of Sciences)
- Jili Yin
(Institute of Computing Technology, CAS
University of Chinese Academy of Sciences)
- Rong-Chang Chen
(University of Chinese Academy of Sciences
Chinese Academy of Sciences)
- Xing Zhu
(University of Chinese Academy of Sciences
Chinese Academy of Sciences)
- Yang She
(National Institute of Biological Sciences (NIBS))
- Niu Huang
(National Institute of Biological Sciences (NIBS))
- Feng Shao
(National Institute of Biological Sciences (NIBS))
- Keqiong Ye
(University of Chinese Academy of Sciences
Chinese Academy of Sciences)
- Rui-Xiang Sun
(National Institute of Biological Sciences (NIBS))
- Si-Min He
(Institute of Computing Technology, CAS
University of Chinese Academy of Sciences)
- Xiaoguang Lei
(Peking University)
- Meng-Qiu Dong
(National Institute of Biological Sciences (NIBS)
Tsinghua University)
Abstract
Chemical cross-linking of proteins coupled with mass spectrometry analysis (CXMS) is widely used to study protein-protein interactions (PPI), protein structures, and even protein dynamics. However, structural information provided by CXMS is still limited, partly because most CXMS experiments use lysine-lysine (K-K) cross-linkers. Although superb in selectivity and reactivity, they are ineffective for lysine deficient regions. Herein, we develop aromatic glyoxal cross-linkers (ArGOs) for arginine-arginine (R-R) cross-linking and the lysine-arginine (K-R) cross-linker KArGO. The R-R or K-R cross-links generated by ArGO or KArGO fit well with protein crystal structures and provide information not attainable by K-K cross-links. KArGO, in particular, is highly valuable for CXMS, with robust performance on a variety of samples including a kinase and two multi-protein complexes. In the case of the CNGP complex, KArGO cross-links covered as much of the PPI interface as R-R and K-K cross-links combined and improved the accuracy of Rosetta docking substantially.
Suggested Citation
Alexander X. Jones & Yong Cao & Yu-Liang Tang & Jian-Hua Wang & Yue-He Ding & Hui Tan & Zhen-Lin Chen & Run-Qian Fang & Jili Yin & Rong-Chang Chen & Xing Zhu & Yang She & Niu Huang & Feng Shao & Keqio, 2019.
"Improving mass spectrometry analysis of protein structures with arginine-selective chemical cross-linkers,"
Nature Communications, Nature, vol. 10(1), pages 1-11, December.
Handle:
RePEc:nat:natcom:v:10:y:2019:i:1:d:10.1038_s41467-019-11917-z
DOI: 10.1038/s41467-019-11917-z
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Citations
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Cited by:
- Ting Wang & Shiyun Ma & Guanghui Ji & Guoli Wang & Yang Liu & Lei Zhang & Ying Zhang & Haojie Lu, 2024.
"A chemical proteomics approach for global mapping of functional lysines on cell surface of living cell,"
Nature Communications, Nature, vol. 15(1), pages 1-12, December.
- Jian-Hua Wang & Yu-Liang Tang & Zhou Gong & Rohit Jain & Fan Xiao & Yu Zhou & Dan Tan & Qiang Li & Niu Huang & Shu-Qun Liu & Keqiong Ye & Chun Tang & Meng-Qiu Dong & Xiaoguang Lei, 2022.
"Characterization of protein unfolding by fast cross-linking mass spectrometry using di-ortho-phthalaldehyde cross-linkers,"
Nature Communications, Nature, vol. 13(1), pages 1-16, December.
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