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A Bacillus paralicheniformis Iron-Containing Urease Reduces Urea Concentrations in Rice Wine.

Qingtao LiuYuqi ChenMinglai YuanGuocheng DuJian ChenZhen Kang
Published in: Applied and environmental microbiology (2017)
Urease, a nickel-containing metalloenzyme, was the first enzyme to be crystallized and has a prominent position in the history of biochemistry. In the present study, we identified a nickel urease gene cluster, ureABCEFGDH, in Bacillus paralicheniformis ATCC 9945a and characterized it in Escherichia coli Enzymatic assays demonstrate that this oxygen-stable urease is also an iron-containing acid urease. Heterologous expression assays of UreH suggest that this accessory protein is involved in the transmembrane transportation of nickel and iron ions. Moreover, this iron-containing acid urease has a potential application in the degradation of urea in rice wine. The present study not only enhances our understanding of the mechanism of activation of urease but also provides insight into the evolution of metalloenzymes.IMPORTANCE An iron-containing, oxygen-stable acid urease from B. paralicheniformis ATCC 9945a with good enzymatic properties was characterized. This acid urease shows activities toward both urea and ethyl carbamate. After digestion with 6 U/ml urease, approximately 92% of the urea in rice wine was removed, suggesting that this urease has great potential in the food industry.
Keyphrases
  • escherichia coli
  • poor prognosis
  • iron deficiency
  • high throughput
  • gene expression
  • binding protein
  • pseudomonas aeruginosa
  • human health
  • metal organic framework
  • amino acid
  • candida albicans