Development and biological applications of sulfur–triazole exchange (SuTEx) chemistry
RSC Chemical Biology Pub Date: 2021-01-19 DOI: 10.1039/D0CB00180E
Abstract
Sulfur electrophiles constitute an important class of covalent small molecules that have found widespread applications in synthetic chemistry and chemical biology. Various electrophilic scaffolds, including sulfonyl fluorides and arylfluorosulfates as recent examples, have been applied for protein bioconjugation to probe ligand sites amenable for chemical proteomics and drug discovery. In this review, we describe the development of sulfonyl-triazoles as a new class of electrophiles for sulfur–triazole exchange (SuTEx) chemistry. SuTEx achieves covalent reaction with protein sites through irreversible modification of a residue with an adduct group (AG) upon departure of a leaving group (LG). A principal differentiator of SuTEx from other chemotypes is the selection of a triazole heterocycle as the LG, which introduces additional capabilities for tuning the sulfur electrophile. We describe the opportunities afforded by modifications to the LG and AG alone or in tandem to facilitate nucleophilic substitution reactions at the SO2 center in cell lysates and live cells. As a result of these features, SuTEx serves as an efficient platform for developing chemical probes with tunable bioactivity to study novel nucleophilic sites on established and poorly annotated protein targets. Here, we highlight a suite of biological applications for the SuTEx electrophile and discuss future goals for this enabling covalent chemistry.
Recommended Literature
- [1] An aptasensor for the detection of ampicillin in milk using a personal glucose meter Xixi Li,Nanwei Zhu,Ruohan Li,Qinpu ZhangAnal. Methods, 2020,12, 3376-3381 10.1039/D0AY00256A
- [2] Alt-proteins: A promising future 10.1002/fsat.3701_10.x
- [3] An assay for the enzyme N-acetyl-β-d-glucosaminidase (NAGase) based on electrochemical detection using screen-printed carbon electrodes (SPCEs) R. M. Pemberton,J. P. Hart,T. T. MottramAnalyst, 2001,126, 1866-1871 10.1039/B104874K
- [4] An integrated process of CO2 capture and in situ hydrogenation to formate using a tunable ethoxyl-functionalized amidine and Rh/bisphosphine system? Yu-Nong Li,Liang-Nian He,Xian-Dong Lang,Xiao-Fang Liu,Shuai ZhangRSC Adv., 2014,4, 49995-50002 10.1039/C4RA08740B
- [5] An alkynylboronatecycloaddition strategy to functionalised benzyne derivatives? James D. Kirkham,Patrick M. Delaney,George J. Ellames,Eleanor C. Row,Joseph P. A. HarrityChem. Commun., 2010,46, 5154-5156 10.1039/C0CC01345E
- [6] Aluminium complexes with thio-phosphorus ligands: syntheses and characterisations of [Al2(CyPS3)2(CyPHS2)2] and [Al(S2PPh2)3]? Robert P. Davies,Maria A. Giménez,Laura Patel,Andrew J. P. WhiteDalton Trans., 2008, 5705-5707 10.1039/B813427H
- [7] An autonomous self-optimizing flow machine for the synthesis of pyridine–oxazoline (PyOX) ligands? Eric Wimmer,Daniel Cortés-Borda,Solène Brochard,Elvina Barré,Charlotte Truchet,Fran?ois-Xavier FelpinReact. Chem. Eng., 2019,4, 1608-1615 10.1039/C9RE00096H
- [8] An atomistic mechanism for the degradation of perovskite solar cells by trapped charge? Eunhak Lim,Jiyoung Heo,Seong Keun KimNanoscale, 2019,11, 11369-11378 10.1039/C9NR02193K
- [9] An artificial photosynthesis system comprising a covalent triazine framework as an electron relay facilitator for photochemical carbon dioxide reduction? Siquan Zhang,Shengyao Wang,Liping Guo,Hao Chen,Bien Tan,Shangbin JinJ. Mater. Chem. C, 2020,8, 192-200 10.1039/C9TC05297F
- [10] An atomic scale study of defects in Co2FeAl Ravi Kumar Yadav,R. GovindarajPhys. Chem. Chem. Phys., 2020,22, 26876-26886 10.1039/D0CP04572A
Journal Name:RSC Chemical Biology
research_products
-
CAS no.: 89640-58-4