Hpn, one of Helicobacter pylori's nickel-accessory proteins, is an amazingly peculiar protein: Almost half of its sequence consists of polyhistidyl (poly-His) residues. Herein, we try to understand the origin of this naturally occurring sequence, thereby shedding some light on the bioinorganic chemistry of Hpn's numerous poly-His repeats. By using potentiometric, mass spectrometric, and various spectroscopic techniques, we studied the Ni(II) - and Cu(II) complexes of the wild-type Ac-THHHHYHGG-NH(2) fragment of Hpn and of its six analogues, in which consecutive residues (His or Tyr) were replaced by Ala (Ala-substitution or Ala-scan approaches), thereby resulting in Ac-TAHHHYHGG-NH(2), Ac-THAHHYHGG-NH(2), Ac-THHAHYHGG-NH(2), Ac-THHHAYHGG-NH(2), Ac-THHHHAHGG-NH(2), and Ac-THHHHYAGG-NH(2) peptides. We found that the His4 residue is critical for both Ni(II) - and Cu(II) -ion binding and the effectiveness of binding varies even if the substituted amino acid does not take part in the direct binding interactions.
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