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An in Situ Combinatorial Methodology to Synthesize and Screen Chemical Probes.

Antonie J. van der Zouwen,Jonas Lohse,Lianne H. E. Wieske,Katharina F. Hohmann,Ramon van der Vlag,Martin D. Witte

Chemical Communications（2019）SCI 2区

Cited 9|Views9

Abstract

Chemical probes that label proteins of interest in the context of complex biological samples are useful research tools. The reactive group that forms the covalent bond with the target protein has a large effect on the selectivity and selecting the appropriate group determines the success of a probe. We here report the development of a combinatorial methodology based on imine chemistry that enables straightforward in situ synthesis and screening of different reactive groups and thereby simplifies identification of probe leads. Using our methodology, we found chemical probes targeting BirA and chloramphenicol acetyl transferase, two proteins associated with antibacterial activity and resistance.

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Iminoboronates As Dual‐Purpose Linkers in Chemical Probe Development

Antonie J. van der Zouwen,Aike Jeucken,Roy Steneker,Katharina F. Hohmann,Jonas Lohse,Dirk J. Slotboom,Martin D. Witte

Chemistry - A European Journal 2020

被引用8

Acyclic Enaminodiones in the Synthesis of Heterocyclic Compounds

Obydennov Dmitrii L.,Chernyshova Elena V.,Sosnovskikh Vyacheslav Ya.

Chemistry of Heterocyclic Compounds 2020

被引用11

Development of an 18F-Labeled Irreversible Inhibitor of Transglutaminase 2 As Radiometric Tool for Quantitative Expression Profiling in Cells and Tissues.

Robert Wodtke,Johanna Wodtke,Sandra Hauser,Markus Laube,David Bauer,Rebecca Rothe,Christin Neuber,Markus Pietsch,Klaus Kopka,Jens Pietzsch,Reik Loeser

Journal of Medicinal Chemistry 2021

被引用16

Modular Approaches to Synthesize Activity- and Affinity-Based Chemical Probes

Antonie J. van der Zouwen,Martin D. Witte

Frontiers in Chemistry 2021

被引用10

Target Identification of Anticancer Natural Products Using a Chemical Proteomics Approach

Swadhapriya Bhukta,Pushparathinam Gopinath,Rambabu Dandela

RSC advances 2021

被引用5

Profiling Sulfur(VI) Fluorides As Reactive Functionalities for Chemical Biology Tools and Expansion of the Ligandable Proteome

Katharine E. Gilbert,Aini Vuorinen,Arron Aatkar,Peter Pogany,Jonathan Pettinger,Emma K. Grant,Joanna M. Kirkpatrick,Katrin Rittinger,David House,Glenn A. Burley,Jacob T. Bush

ACS CHEMICAL BIOLOGY 2023

被引用18

Exploring the Boundaries of Ferrocenesulfonyl Fluoride Chemistry

William Erb,Jean-Pierre Hurvois,Yury S. Halauko,Vadim E. Matulis,Thierry Roisnel

INORGANIC CHEMISTRY FRONTIERS 2022

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Discovery of Biologically Optimized Polymyxin Derivatives Facilitated by Peptide Scanning and in Situ Screening Chemistry.

Rintaro Kaguchi,Akira Katsuyama,Toyotaka Sato,Satoshi Takahashi,Motohiro Horiuchi,Shin-ichi Yokota,Satoshi Ichikawa

JOURNAL OF THE AMERICAN CHEMICAL SOCIETY 2023

被引用4

The Linkage-Type and the Exchange Molecule Affect the Protein-Labeling Efficiency of Iminoboronate Probes.

Antonie J. van der Zouwen,Aike Jeucken, Elske van der Pol, Gerben Boerema,Dirk J. Slotboom,Martin D. Witte

Organic & Biomolecular Chemistry 2023

被引用0

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【要点】：本文提出了一种原位组合合成法，通过简化不同反应性基团的合成与筛选过程，成功识别针对特定蛋白质的化学探针，创新点在于将组合化学与原位合成相结合，提高了探针开发效率。

【方法】：研究采用基于亚胺化学的组合方法，原位合成并筛选不同的反应性基团，以实现对目标蛋白的选择性标记。

【实验】：实验通过该方法成功合成了针对BirA和氯霉素乙酰转移酶的化学探针，并进行了筛选，具体数据集名称未在摘要中提及，但实验结果表明了方法的有效性。

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