Noah Munzinger scite author profile

Noah Munzinger

2Publications

19Citation Statements Received

90Citation Statements Given

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ETH Zurich

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Imidazole‐ and Benzimidazole‐Based Inhibitors of the Kinase IspE: Targeting the Substrate‐Binding Site and the Triphosphate‐Binding Loop of the ATP Site

et al. 2013

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The enzymes of the mevalonate‐independent biosynthetic pathway to isoprenoids are attractive targets for the development of new drug candidates, in particular against malaria and tuberculosis, because they are present in major human pathogens but not in humans. Herein, the structure‐based design, synthesis, and biological evaluation of a series of inhibitors featuring a central imidazole or benzimidazole scaffold for the kinase IspE from E. coli, a model for the corresponding malarial enzyme, are described. Optimization of the binding preferences of the hydrophobic sub‐pocket at the substrate‐binding site allowed IC50 values in the lower micromolar range to be reached. Structure–activity relationship studies using a 1,2‐disubstituted imidazole central core revealed that alicyclic moieties fit the sub‐pocket better than acyclic aliphatic and aromatic residues. The phosphate‐binding region in the ATP‐binding site of IspE, a neutral glycine‐rich loop, was addressed for the first time by an additional vector attached to the central core. Polar functional groups, such as trifluoromethyl or nitriles, were introduced to undergo orthogonal dipolar interactions with the amide groups in the loop. Alternatively, small hydrogen‐bond‐accepting heterocyclic residues, capable of binding to the convergent NH groups in the loop, were explored. The biological data showed slightly improved inhibitory potency in some cases and confirmed the challenges in addressing, with gain in binding affinity, the highly water‐exposed sections of enzyme active sites, such as the glycine‐rich loop of IspE.

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Development of a Modular Ratiometric Fluorescent Probe for the Detection of Extracellular Superoxide

Andina

Munzinger

Frei

et al. 2017

Chemistry A European J

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Extracellular detection of endogeneous analytes (e.g., superoxide) can provide important insights into mechanisms of homeostasis and diseases, such as tumorigenesis. A ratiometric probe with a fluorescent reference and an analyte-specific switch-on dye was developed. Detection of ROS in the extracellular milieu was ensured by connecting the two fluorophores with a modular peptide-nucleic-acid-based linker. The ROS-sensing ability was assessed and validated in cell-free assays and in cell culture.

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Noah Munzinger

Imidazole‐ and Benzimidazole‐Based Inhibitors of the Kinase IspE: Targeting the Substrate‐Binding Site and the Triphosphate‐Binding Loop of the ATP Site

Development of a Modular Ratiometric Fluorescent Probe for the Detection of Extracellular Superoxide

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