Formation of highly stable multinuclear Ag: NSn clusters in zinc fingers disrupts their structure and function

Katarzyna Kluska; Manuel D. Peris-Díaz; Dawid Płonka; Alexander Moysa; Michał Dadlez; Aurélien Deniaud; Wojciech Bal; Artur Krȩżel

Journal ArticleOPEN ACCESS

Formation of highly stable multinuclear Ag: NSn clusters in zinc fingers disrupts their structure and function

Chemical Communications (2020) 56(9) 1329-1332

DOI: 10.1039/c9cc09418k

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Abstract

Silver (Ag(i)) binding to consensus zinc fingers (ZFs) causes Zn(ii) release inducing a gradual disruption of the hydrophobic core, followed by an overall conformational change and formation of highly stable AgnSn clusters. A compact eight-membered Ag4S4 structure formed by a CCCC ZF is the first cluster example reported for a single biological molecule. Ag(i)-induced conformational changes of ZFs can, as a consequence, affect transcriptional regulation and other cellular processes.

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Kluska, K., Peris-Díaz, M. D., Płonka, D., Moysa, A., Dadlez, M., Deniaud, A., … Krȩżel, A. (2020). Formation of highly stable multinuclear Ag: NSn clusters in zinc fingers disrupts their structure and function. Chemical Communications, 56(9), 1329–1332. https://doi.org/10.1039/c9cc09418k

Formation of highly stable multinuclear Ag: NSn clusters in zinc fingers disrupts their structure and function

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