10 research outputs found

    Expression, Purification and Characterization of Arginase from Helicobacter pylori in Its Apo Form

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    Arginase, a manganese-dependent enzyme that widely distributed in almost all creatures, is a urea cycle enzyme that catalyzes the hydrolysis of L-arginine to generate L-ornithine and urea. Compared with the well-studied arginases from animals and yeast, only a few eubacterial arginases have been characterized, such as those from H. pylori and B. anthracis. However, these enzymes used for arginase activity assay were all expressed with LB medium, as low concentration of Mn2+ was detectable in the medium, protein obtained were partially Mn2+ bonded, which may affect the results of arginase activity assay. In the present study, H. pylori arginase (RocF) was expressed in a Mn2+ and Co2+ free minimal medium, the resulting protein was purified through affinity and gel filtration chromatography and the apo-form of RocF was confirmed by flame photometry analysis. Gel filtration indicates that the enzyme exists as monomer in solution, which was unique as compared with homologous enzymes. Arginase activity assay revealed that apo-RocF had an acidic pH optimum of 6.4 and exhibited metal preference of Co2+>Ni2+>Mn2+. We also confirmed that heat-activation and reducing regents have significant impact on arginase activity of RocF, and inhibits S-(2-boronoethyl)-L-Cysteine (BEC) and Nω-hydroxy-nor-Arginine (nor-NOHA) inhibit the activity of RocF in a dose-dependent manner

    Competing T=0 and T=1 structures in the N=Z nucleus Ga-62(31)

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    The low-lying levels in the odd-odd N=Z nucleus 62^{62}Ga have been identified for the first time. These data reveal a cascade of stretched-E2 transitions based on a T=0, 1+^{+} bandhead which decays directly to the T=1, 0+^{+} ground state. The observed levels are interpreted in the context of theshell model, using as a basis, the rf5/2g9/2_{rf5/2g9/2} orbits with a 56^{56}Ni core
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