Experimental and computational investigation of heteroatom substitution in nucleolytic Cu(ii) cyclen complexes for balancing stability and redox activity

Hormann, Jan; Verbitsky, Olga; Zhou, Xiaoyu; Battistella, Beatrice; van der Meer, Margarete; Sarkar, Biprajit; Zhao, Cunyuan; Kulak, Nora

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Royal Society of Chemistry, Dalton Transactions, 10(52), p. 3176-3187, 2023

DOI: 10.1039/d2dt03284h

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Experimental and computational investigation of heteroatom substitution in nucleolytic Cu(ii) cyclen complexes for balancing stability and redox activity

Journal article published in 2023 by Jan Hormann, Olga Verbitsky, Xiaoyu Zhou, Beatrice Battistella

, Margarete van der Meer, Biprajit Sarkar

, Cunyuan Zhao, Nora Kulak

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Abstract

Cu(ii) complexes of heteroatom-substituted cyclen-based ligands were optmizied regarding their redox activity and DNA cleavage activity. The ideal ligand exhibited a balanced set of hard and soft donors (CuL⁶ with N, O and S donor atoms).

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Experimental and computational investigation of heteroatom substitution in nucleolytic Cu(ii) cyclen complexes for balancing stability and redox activity

Abstract