Abstract
An enzyme with both inorganic polyphosphate [poly(P)]- and ATP-dependent NAD kinase activities was isolated from Micrococcus flavus. The enzyme was a dimer consisting of 34 kDa subunits, and was named poly(P)/ATP-NAD kinase. Internal amino acid sequences of the enzyme showed homologies with some function-unknown proteins released on the GenBank database. Among such proteins, hypothetical Rv1695 protein (Accession No. Z98268-16), which was encoded by a gene named “Rv1695” on genomic DNA of Mycobacterium tuberculosis H37Rv, was proposed to be poly(P)-dependent NAD kinase. By cloning and expression in Escherichia coli, Rv1695 was shown to encode poly(P)/ATP-NAD kinase and named ppnk. The ppnk product, recombinant-poly(P)/ATP-NAD kinase (Ppnk) was purified and characterized. The enzyme was a tetramaer consisting of 35 kDa subunits when expressed in E. coli. Poly(P)/ATP-NAD kinases of M. flavus and Ppnk of M. tuberculosis H37Rv specifically and completely phosphorylated NAD by utilizing commercially available poly(P)s and nucleoside triphosphates as phosphoryl donors.
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