Apoprotein isolation and activation, and vibrational structure of the Helicobacter mustelae iron urease

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• 作者：Eric L. Carter^a ; Denis A. Proshlyakov^b ; Robert P. Hausinger^a ; ^c ; ^{hausinge@msu.edu}
• 关键词：Urease ; Nickel ; Metal-substituted ; Iron ; Dinuclear ; Oxygen sensitivity
• 刊名：Journal of Inorganic Biochemistry
• 出版年：2012
• 出版时间：June, 2012
• 年：2012
• 卷：111
• 期：Complete
• 页码：195-202
• 全文大小：573 K

文摘

The micro aerophilic pathogen Helicobacter mustelae synthesizes an oxygen-labile, iron-containing urease (UreA2B2) in addition to its standard nickel-containing enzyme (UreAB). An apoprotein form of the iron urease was prepared from ureA2B2-expressing recombinant Escherichia coli cells that were grown in minimal medium. Temperature-dependent circular dichroism measurements of holoprotein and apoprotein demonstrate an enhancement of thermal stability associated with the UreA2B2 metallocenter. In parallel to the situation reported for nickel activation of the standard urease apoprotein, incubation of UreA2B2 apoprotein with ferrous ions and bicarbonate generated urease activity in a portion of the nascent active sites. In addition, ferrous ions were shown to be capable of reductively activating the oxidized metallocenter. Resonance Raman spectra of the inactive, aerobically-purified UreA2B2 holoprotein exhibit vibrations at 495 cm^?#xA0;1 and 784 cm^?#xA0;1, consistent with ¦Í_s and ¦Í_as modes of an Fe(III)OFe(III) center; these modes undergo downshifts upon binding of urea and were unaffected by changes in pH. The low-frequency mode also exhibits an isotopic shift from 497 to 476 cm^?#xA0;1 upon ¹⁶O/¹⁸O bulk water isotope substitution. Expression of subunits of the conventional nickel-containing Klebsiella aerogenes urease in cells grown in rich medium without nickel resulted in iron incorporation into a portion of the protein. The inactive iron-loaded species exhibited a UV-visible spectrum similar to oxidized UreA2B2 and was capable of being reductively activated under anoxic conditions. Results from these studies more clearly define the formation and unique properties of the iron urease metallocenter.