Biophysical Examination of the Calcium-Modulated Nickel-Binding Properties of Human Calprotectin Reveals Conformational Change in the EF-Hand Domains and His3Asp Site

S100 proteins are a group of small dimeric calcium-binding proteins making up a large subclass of the EF-hand family of calcium-binding proteins. Members of this family of proteins have been proposed to act as intracellular calcium modulatory proteins in a fashion analogous to that of the EF-hand sensor proteins troponin-C and calmodulin. Recently, NMR spectroscopy has provided the three-dimensional structures of the S100 family members S100A6 and S100B in both the apo- and calcium-bound forms. These structures have allowed for the identification of a novel calcium-induced conformational change termed the change-in-hand mechanism. Helix III of the C-terminal calcium-binding loop changes its helix-helix interactions (or handness) with the remainder of the molecule primarily owing to the reorientation of the backbone in an effort to coordinate the calcium ion. This reorientation of helix III exposes several residues in the C-terminus and linker regions of S100B resulting in the formation of a hydrophobic patch surrounded be a number of acidic residues. This site is the proposed region for protein-protein recognition.Key words: S100, calcium-binding protein, EF-hand, conformational change.

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Inactivation of 3α-hydroxysteroid dehydrogenase by superoxide radicals. Modification of histidine and cysteine residues causes the conformational change

Biochemical Journal ◽

10.1042/bj2330493 ◽

1986 ◽

Vol 233 (2) ◽

pp. 493-497 ◽

Cited By ~ 7

Author(s):

H S Kim ◽

P Minard ◽

M D Legoy ◽

D Thomas

Keyword(s):

Amino Acids ◽

Superoxide Dismutase ◽

Conformational Change ◽

Free Amino ◽

Fluorescence Emission ◽

Hydroxysteroid Dehydrogenase ◽

Superoxide Radicals ◽

Cysteine Residues ◽

Binding Properties ◽

Oxidase Reaction

3 alpha-Hydroxysteroid dehydrogenase (EC 1.1.1.50) from Pseudomonas testosterone was inactivated by superoxide radicals generated by the aerobic xanthine oxidase reaction. Superoxide dismutase, NAD+, bovine serum albumin and histidine and cysteine as free amino acids partially protected the enzyme from inactivation. NADH-binding properties were determined by fluorescence spectroscopy, and no variation was found between native enzyme and the unmodified fraction of the partly inactivated one. The fluorescence emission maximum for the completely inactivated enzyme was shifted 10 nm to a longer wavelength when compared with the native one, and it seems possible that the modification of histidine and cysteine residues by superoxide radicals causes the conformational change of the enzyme and the consequent loss of catalytic activity.

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A Comparative Study on Nickel Binding to Hpn-like Polypeptides from Two Helicobacter pylori Strains

International Journal of Molecular Sciences ◽

10.3390/ijms222413210 ◽

2021 ◽

Vol 22 (24) ◽

pp. 13210

Author(s):

Danuta Witkowska ◽

Agnieszka Szebesczyk ◽

Joanna Wątły ◽

Michał Braczkowski ◽

Magdalena Rowińska-Żyrek

Keyword(s):

Helicobacter Pylori ◽

Comparative Study ◽

Potentiometric Titration ◽

Isothermal Titration Calorimetry ◽

Titration Calorimetry ◽

Binding Properties ◽

Protein Fragments ◽

Nickel Binding ◽

Independent Reaction

Combined potentiometric titration and isothermal titration calorimetry (ITC) methods were used to study the interactions of nickel(II) ions with the N-terminal fragments and histidine-rich fragments of Hpn-like protein from two Helicobacter pylori strains (11637 and 26695). The ITC measurements were performed at various temperatures and buffers in order to extract proton-independent reaction enthalpies of nickel binding to each of the studied protein fragments. We bring up the problem of ITC results of nickel binding to the Hpn-like protein being not always compatible with those from potentiometry and MS regarding the stoichiometry and affinity. The roles of the ATCUN motif and multiple His and Gln residues in Ni(II) binding are discussed. The results provided the possibility to compare the Ni(II) binding properties between N-terminal and histidine-rich part of Hpn-like protein and between N-terminal parts of two Hpn-like strains, which differ mainly in the number of glutamine residues.

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