利用化学蛋白质合成研究苏氨酸磷酸化在泛素功能中的作用

Examining the Role of Threonine Phosphorylation in Ubiquitin's Function Using Chemical Protein Synthesis.

作者信息

Wang Bingji, Li Chuntong, Zhao Fangyu, Shi Luyu, Li Xu, Liu Yijie, Sun Shuzhe, Yuan Ligong, Sun Maoshen, Zhang Yingyue, Shi Jing, Liang Lu-Jun

机构信息

Center for BioAnalytical Chemistry, Hefei National Laboratory of Physical Science at Microscale, University of Science and Technology of China, Hefei 230026, China.

Department of Chemistry, Key Lab of Bioorganic Phosphorus Chemistry and Chemical Biology, Tsinghua University, Beijing 100084, China.

出版信息

JACS Au. 2025 Apr 22;5(5):2148-2158. doi: 10.1021/jacsau.5c00067. eCollection 2025 May 26.

DOI:10.1021/jacsau.5c00067

PMID:40443892

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC12117390/

Abstract

The phosphorylation of ubiquitin significantly enhances the complexity of the ubiquitin code. However, the molecular consequences of ubiquitin phosphorylation at threonine residues remain largely uncharacterized. In this study, we present an effective method for the total chemical synthesis of threonine-phosphorylated ubiquitin, producing tens of milligrams of all six in vivo-identified threonine-phosphorylated ubiquitin analogues: pUbT7, pUbT12, pUbT14, pUbT22, pUbT55, and pUbT66. The biochemical activities of phosphorylated ubiquitin analogues were examined in vitro. Our results show that threonine phosphorylation has a differential impact on E2 charging, with phosphorylation at residue Thr7 exhibiting significant inhibition. In addition, threonine phosphorylation significantly affects the E1-E2-E3-mediated assembly and deubiquitinase-mediated disassembly of polyubiquitin chains in a site-specific manner. Collectively, this work provides new insights into the effect of phosphorylation on the ubiquitin code.

摘要

泛素的磷酸化显著增强了泛素密码的复杂性。然而，苏氨酸残基处泛素磷酸化的分子后果在很大程度上仍未得到表征。在本研究中，我们提出了一种有效合成苏氨酸磷酸化泛素的全化学方法，可生产出数十毫克所有六种在体内鉴定出的苏氨酸磷酸化泛素类似物：pUbT7、pUbT12、pUbT14、pUbT22、pUbT55和pUbT66。在体外检测了磷酸化泛素类似物的生化活性。我们的结果表明，苏氨酸磷酸化对E2充电有不同影响，残基Thr7处的磷酸化表现出显著抑制作用。此外，苏氨酸磷酸化以位点特异性方式显著影响E1-E2-E3介导的多聚泛素链组装和去泛素酶介导的拆卸。总的来说，这项工作为磷酸化对泛素密码的影响提供了新的见解。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5d20/12117390/b5bb45300023/au5c00067_0006.jpg

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利用化学蛋白质合成研究苏氨酸磷酸化在泛素功能中的作用

Examining the Role of Threonine Phosphorylation in Ubiquitin's Function Using Chemical Protein Synthesis.

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