Justyn Wojtasik scite author profile

Here, the new biosensor destined for screening of interactions between kinase JAK2 and compounds which may act as inhibitors was presented. The Cu(II) complex of pentetic acid thiol ligand was applied for immobilization of kinase JAK2 on the gold electrode surface through his-tagged chemistry. The base of the biosensor response was the change of the electrochemical properties of the Cu(II) redox centres upon formation of the kinase JAK2-potential inhibitor complex. The increasing inhibitor concentration caused the decrease of reduction/oxidation Cu(II) current observed with Osteryoung square wave voltammetry. The biosensor usability was checked using known inhibitors, berberines-isoquinolone alkaloids, as well as caffeic acid-a control compound which has no affinity to kinase JAK2. The possible parameters suitable for estimation of the strength of the interactions between kinase JAK2 covalently attached to the Cu(II) complex of pentetic acid thiol ligand deposited on the gold electrode surface and potential inhibitors present in the solution were presented.

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Justyn Wojtasik

Oriented immobilization of His-tagged kinase RIO1 protein on redox active N-(IDA-like)-Cu(II) monolayer deposited on gold electrode—The base of electrochemical biosensor

Pentetic acid (DPTA) Cu(II) monolayer deposited on gold electrode—The base of biosensors for electrochemical screening of kinase JAK2 and potential inhibitor interactions

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