Specific pupylation as IDEntity reporter (SPIDER) for the identification of protein-biomolecule interactions
Jiang He-Wei, Chen Hong, Zheng Yun-Xiao, Wang Xue-Ning, Meng Qingfeng, Xie Jin, Zhang Jiong, Zhang ChangSheng, Xu Zhao-Wei, Chen Zi-Qing, Wang Lei, Kong Wei-Sha, Zhou Kuan, Ma Ming-Liang, Zhang Hai-Nan, Guo Shu-Juan, Xue Jun-Biao, Hou Jing-Li, Liu Zhe-Yi, Niu Wen-Xue, Wang Fang-Jun, Wang Tao, Li Wei, Wang Rui-Na, Dang Yong-Jun, Czajkowsky Daniel M., Pei JianFeng, Dong Jia-Jia, Tao Sheng-Ce
Journal:Science China-Life Sciences
IF:9.1
DOI:10.1007/s11427-023-2316-2
PMID:37059927
Published:2023-04-14
research field:蛋白质组学分子生物学病毒学生物化学
Abstract
Protein-biomolecule interactions play pivotal roles in almost all biological processes. For a biomolecule of interest, the identification of the interacting protein(s) is essential. For this need, although many assays are available, highly robust and reliable methods are always desired. By combining a substrate-based proximity labeling activity from the pupylation pathway of Mycobacterium tuberculosis and the streptavidin (SA)-biotin system, we developed the S pecific P upylation as IDE ntity R eporter (SPIDER) method for identifying protein-biomolecule interactions. Using SPIDER, we validated the interactions between the known binding proteins of protein, DNA, RNA, and small molecule. We successfully applied SPIDER to construct the global protein interactome for m 6 A and mRNA, identified a variety of uncharacterized m 6 A binding proteins, and validated SRSF7 as a potential m 6 A reader. We globally identified the binding proteins for lenalidomide and CobB. Moreover, we identified SARS-CoV-2-specific receptors on the cell membrane. Overall, SPIDER is powerful and highly accessible for the study of protein-biomolecule interactions.
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