Issue 15, 2024

Beyond copper: examining the significance of His-mutations in mycobacterial GroEL1 HRCT for Ni(ii) complex stability and formation

Abstract

Recently, we have studied the coordination chemistry of the Cu(II)–histidine-rich C-terminal tail (HRCT) complex of the mycobacterial GroEL1 protein. The structure of this domain differs significantly compared to the well-known methionine-glycine-rich GroEL chaperonin – it was predicted that mycobacterial GroEL1 could play a significant role in the metal homeostasis of Mycobacteria, especially copper. However, we found that this particular domain's pattern also repeats in a number of Ni(II)-binding proteins. Here, we present the studies concerning the properties of GroEL1 HRCT as a ligand for Ni(II) ions. For this purpose, we chose eight model peptides: L1 – Ac-DHDHHHGHAH, L2 – Ac-DKPAKAEDHDHHHGHAH, and 6 mutants of the latter in the pH range of 2–11. We examined the stoichiometry, stability, and spectroscopic features of copper complexes. We noticed that similar to the Cu(II)-complex, the presence of a Lys5 residue significantly increases the stability of the system. The impact of His mutations was also examined and carefully studied using NMR spectroscopy. His9 and His13 are the crucial residues for Ni(II) binding, whereas His12 has minimal relevance in complex formation.

Graphical abstract: Beyond copper: examining the significance of His-mutations in mycobacterial GroEL1 HRCT for Ni(ii) complex stability and formation

Supplementary files

Article information

Article type
Paper
Submitted
02 Jan 2024
Accepted
02 Mar 2024
First published
25 Mar 2024

Dalton Trans., 2024,53, 6676-6689

Beyond copper: examining the significance of His-mutations in mycobacterial GroEL1 HRCT for Ni(II) complex stability and formation

A. Rola, A. Kola, D. Valensin, O. Palacios, M. Capdevila, E. Gumienna-Kontecka and S. Potocki, Dalton Trans., 2024, 53, 6676 DOI: 10.1039/D4DT00011K

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