Abstract
dNTP triphosphohydrolase (TPH) belongs to the histidine/aspartate (HD) superfamily and catalyzes the hydrolysis of dNTPs into 2′-deoxyribonucleoside and inorganic triphosphate. TPHs are required for cellular dNTP homeostasis and DNA replication fidelity and are employed as a host defense mechanism. PA1124 from the pathogenic Pseudomonas aeruginosa bacterium functions as a dGTP and dTTP triphosphohydrolase. To reveal how PA1124 drives dNTP hydrolysis and is regulated, we performed a structural study of PA1124. PA1124 assembles into a hexameric architecture as a trimer of dimers. Each monomer has an interdomain dent where a metal ion is coordinated by conserved histidine and aspartate residues. A structure-based comparative analysis suggests that PA1124 accommodates the dNTP substrate into the interdomain dent near the metal ion. Interestingly, PA1124 interacts with ssDNA, presumably as an allosteric regulator, using a positively charged intersubunit cleft that is generated via dimerization. Furthermore, our phylogenetic analysis highlights similar or distinct oligomerization profiles across the TPH family.
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