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Nucleoside kinase from the hyperthermophilic archaeon Methanocaldococcus jannaschii (MjNK) is a member of the ribokinase family. In the presence of ATP and Mg2+, MjNK is able to catalyze the phosphorylation of a variety of nucleosides, including inosine, cytidine, guanosine and adenosine. Here, the crystal structure of MjNK, the first structure of an archaeal representative of the ribokinase family, is presented. The structure was solved using the multiple-wavelength anomalous dispersion technique. Three-dimensional structures of the unliganded enzyme and a complex of MjNK, an ATP analogue and adenosine were determined to 1.7 and 1.9 Å resolution, respectively. Each subunit comprises an α/β-domain and a smaller lid domain and has an overall fold characteristic of the ribokinase superfamily. MjNK shares highest structural similarity to the ribokinases from Escherichia coli and Thermotoga maritima. Similar to ribokinase and other superfamily members, the lid domain of MjNK undergoes a significant conformational change upon substrate binding. In the crystal structure of the MjNK complex, subunit A adopts a closed conformation and subunit B an open conformation. In subunit A all substrates and Mg2+ were observed, whereas in subunit B only the ATP analogue could be clearly identified in the electron density. The structures of MjNK and E. coli ribokinase (EcRK) were compared with respect to putative determinants of thermal stability. Relative to EcRK, MjNK shows an increased charged and a decreased hydrophobic accessible surface area, as well as a higher fraction of charged residues, ionic networks and large aromatic clusters, characteristics that are frequently observed in enzymes from hyperthermophiles.

Supporting information

PDB references: MjNK, 2c4e, r2c4esf; MjNK complex, 2c49, r2c49sf


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