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Abstract
In the search for new antitubercular compounds, we leveraged target-directed dynamic combinatorial chemistry (tdDCC) as an efficient hit-identification method. In tdDCC, the target selects its own binders from a dynamic library generated in situ, reducing the number of compounds that require synthesis and evaluation. We combined a total of twelve hydrazides and six aldehydes to generate 72 structurally diverse N-acylhydrazones. To amplify the best binders, we employed anti-infective target 4-diphosphocytidyl-2C-methyl-D-erythritol kinase (IspE) from Mycobacterium tuberculosis (Mtb). We successfully validated the use of tdDCC as hit-identification method for IspE and optimised the analysis of tdDCC hit determination. From the 72 possible N-acylhydrazones, we synthesised twelve of them revealing several new starting points for the development of IspE inhibitors as antibacterial agents.
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Detailed experimental section including characterisation of compounds, materials and methods
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