D. Duly scite author profile

There are 12 histidine residues/molecule in the iron-uptake regulation protein (Fur). Here we examine their pH dependence using proton nuclear magnetic resonance spectroscopy. The histidines have widely spread acid dissociation constants but we can not offer a simple explanation for their complicated behaviour.The iron-uptake regulation protein, Fur, has 12 histidine residues/molecule and some of these have been implicated in iron binding [l -31. This iron binding is affected by pH and thus the Fur protein is not just a monitor of iron concentration but a combined monitor of iron concentration and pH as well. For this reason we have carried out a detailed study of the histidines of Fur using proton nuclear magnetic resonance ('H-NMR) spectroscopy to follow their behaviour on changing pH.There are many NMR studies of histidine resonances in proteins as a function of pH which we used to guide our work [4 ~ 61. The most sophisticated analysis treated the perturbation of a simple histidine in ribonuclease, including a consideration of neighbouring group effects, on both pKa and on the chemical shifts of the resonances both of the protonated and deprotonated histidine residues [7 -91. A parallel study of the isolated histidines of haemoglobin was used to analyse long-range interactions [lo, 111. Here we show that the behaviour of the histidine resonances of Fur is yet more complicated and we suggested that this could arise from cooperativity effects combined with pKa and chemical shift modulations. Our data are not open to very detailed analysis due to the complexity of the systems. MATERIALS AND METHODSThe Fur protein was provided by Prof. J. B. Neilands (Department of Biochemistry, University of California, Berkeley). EDTA, deuterium oxide (2H20), deuterium chloride (2HC1) and sodium deuteroxide (Na02H) were purchased from Aldrich Chemical Company.Fur sarnpies were dissolved in 500 pl 2H20. Sample 1 contained 16.4 mg and sample 2 17.5 mg Fur protein. Sample 1 was adjusted to pH 5.22 with 2HC1 and sample 2 to pH 7.40 with NaO'H. Subsequent pH changes were made by additions of NaO'H. The pH measurements were performed with a glass electrode; the quoted pH values were the actual readings measured to an accuracy of f0.005. The pH of Correspondence to R. J. P. Williams, Inorganic Chemistry Labordtory, University of Oxford, South Parks Road, Oxford OX1 3QR, UK Abbreviations. Fur, iron-uptake regulation protein; 1D and 2D, one-and two-dimensional. the solution was measured before and after recording each spectrum.'H-NMR experiments were carried out in Fourier-transform mode with suppression of the solvent peak and at a temperature of 300 K. A Bruker AM500 spectrometer was used for experiment 1 (sample 1) and a Bruker AM600 spectrometer for experiment 2 (sample 2); 800 scans for experiment 1 and 1000 scans for experiment 2 were collected in an 8 K memory. Dioxan was added as internal reference. pH titrations were performed in the range 5.22 -11.32 (experiment 1) and 7.40 -11.91 (experiment 2). Two-dimensional (2D) NMR meas...

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Morphology and chemical nanoanalysis of discontinuous precipitation in MgAl alloys—I. Regular growth

Duly

Cheynet

Bréchet

1994

Acta Metallurgica et Materialia

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D. Duly

On the competition between continuous and discontinuous precipitations in binary MgAl alloys

High-resolution electron microscopy observations of the interface structure of continuous precipitates in a Mg-Al alloy and interpretation with the O-lattice theory

Microstructure and local crystallographic evolution in an Al1 wt% Mg alloy deformed at intermediate temperature and high strain-rate

The histidines of the iron‐uptake regulation protein, Fur

Morphology and chemical nanoanalysis of discontinuous precipitation in MgAl alloys—I. Regular growth

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