Crystal structure of HugZ, a novel heme oxygenase from Helicobacter pylori.
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ABSTRACT: The crystal structure of a heme oxygenase (HO) HugZ from Helicobacter pylori complexed with heme has been solved and refined at 1.8 Å resolution. HugZ is part of the iron acquisition mechanism of H. pylori, a major pathogen of human gastroenteric diseases. It is required for the adaptive colonization of H. pylori in hosts. Here, we report that HugZ is distinct from all other characterized HOs. It exists as a dimer in solution and in crystals, and the dimer adopts a split-barrel fold that is often found in FMN-binding proteins but has not been observed in hemoproteins. The heme is located at the intermonomer interface and is bound by both monomers. The heme iron is coordinated by the side chain of His(245) and an azide molecule when it is present in crystallization conditions. Experiments show that Arg(166), which is involved in azide binding, is essential for HugZ enzymatic activity, whereas His(245), surprisingly, is not, implying that HugZ has an enzymatic mechanism distinct from other HOs. The placement of the azide corroborates the observed ?-meso specificity for the heme degradation reaction, in contrast to most known HOs that have ?-meso specificity. We demonstrate through sequence and structural comparisons that HugZ belongs to a new heme-binding protein family with a split-barrel fold. Members of this family are widespread in pathogenic bacteria and may play important roles in the iron acquisition of these bacteria.
SUBMITTER: Hu Y
PROVIDER: S-EPMC3020762 | biostudies-literature | 2011 Jan
REPOSITORIES: biostudies-literature
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