Fluorescent probe displacement assays reveal unique nucleic acid binding properties of human nudix enzymes

Nudix proteins are members of a large family of homologous enzymes that hydrolyze nucleoside diphosphates linked to other compounds. The substrates for a subset of Nudix enzymes are all nucleotides linked to RNA, like the m(7)G. mRNA caps and the more recently discovered NAD(H) RNA caps. However, the RNA affinity and nucleic acid specificity of Nudix proteins has not yet been explored in depth. In this study we designed new fluorescence-based assays to examine the interaction of purified recombinant E. coli NudC and human Nudt1 (aka MTH1) Nudt3, Nudt12, Nudt16, and Nudt20 (aka Dcp2). All Nudix proteins except Nudt1 and Nudt12 bound both RNA and DNA stoichiometrically with high affinity (dissociation constants in the nanomolar range) and no clear sequence specificity. In stark contrast, Nudt12 binds RNA but not similar DNA oligonucleotides. Nudt12 also bound RNAs with 5' NAD(-) caps more tightly than those with NADH or m 7 G. cap. NudC was similarly selective against m(7)G. caps but did not differentiate between NAD(+) and NADH capped RNA. Nudt3, Nudt16, and Nudt20 bound m(7)G. capped RNA more tightly than RNA with NADH caps.