AI Article Synopsis
- ATP-PRT is an enzyme that plays a crucial role in the first step of histidine biosynthesis in plants and microorganisms, specifically studied here in the pathogen Campylobacter jejuni.
- The enzyme is allosterically inhibited by histidine binding to a remote site and shows competitive inhibition by AMP.
- Structural analysis revealed that ATP-PRT exists as a hexamer that changes shape between an open form with ATP and a closed form when histidine binds, supporting the idea that the active form is the hexameric structure.
Article Abstract
Adenosine triphosphate phosphoribosyltransferase (ATP-PRT) catalyzes the first committed step of the histidine biosynthesis in plants and microorganisms. Here, we present the functional and structural characterization of the ATP-PRT from the pathogenic ε-proteobacteria Campylobacter jejuni (CjeATP-PRT). This enzyme is a member of the long form (HisGL ) ATP-PRT and is allosterically inhibited by histidine, which binds to a remote regulatory domain, and competitively inhibited by AMP. In the crystalline form, CjeATP-PRT was found to adopt two distinctly different hexameric conformations, with an open homohexameric structure observed in the presence of substrate ATP, and a more compact closed form present when inhibitor histidine is bound. CjeATP-PRT was observed to adopt only a hexameric quaternary structure in solution, contradicting previous hypotheses favoring an allosteric mechanism driven by an oligomer equilibrium. Instead, this study supports the conclusion that the ATP-PRT long form hexamer is the active species; the tightening of this structure in response to remote histidine binding results in an inhibited enzyme.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4972205 | PMC |
| http://dx.doi.org/10.1002/pro.2948 | DOI Listing |
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