Desthiobiotin (DTB)–modified and TAMRA-modified 2″OMeNAD+ are RNA 2′-phosphotransferase (Tpt1) poisons that enable affinity-tagging and fluorescence-tagging of internal RNA 2′-phosphate groups

  1. Stewart Shuman2
  1. 1Department of Chemistry, University of Konstanz, Konstanz 78457, Germany
  2. 2Molecular Biology Program, Memorial Sloan Kettering Cancer Center, New York, New York 10065, USA
  1. Corresponding authors: shumans{at}mskcc.org; renata.kasprzyk{at}hest.ethz.ch
  1. 3 These authors contributed equally to this work.

  2. Handling editor: Eric Phizicky

Abstract

RNA 2′-phosphotransferase Tpt1 catalyzes the removal of an internal RNA 2′-PO4 via a two-step mechanism in which (i) the 2′-PO4 attacks NAD+ C1″ to form an RNA-2′-phospho-(ADP-ribose) intermediate and nicotinamide; and (ii) transesterification of the ADP-ribose O2″ to the RNA 2′-phosphodiester yields 2′-OH RNA and ADP-ribose-1″,2″-cyclic phosphate. We showed previously that 2″OMeNAD+, a synthetic NAD+ analog that cannot support step 2 transesterification, is an effective step 1 substrate for Runella slithyformis Tpt1 (RslTpt1) in a reaction that generates the normally undetectable RNA-2′-phospho-(ADP-ribose) intermediate as an abortive product. Here we report the chemical synthesis of two novel 2″OMeNAD+ compounds, containing desthiobiotin (DTB) linked to adenine C2 or N6 via a diaminohexane linker. Whereas both analogs poison the RslTpt1 reaction after step 1, the 2″OMeNAD-2-DTB derivative supports a higher yield of RNA-2′-phospho-(DTB-ADP-2″OMe-ribose) product, which can be recovered by adsorption to streptavidin beads and elution with biotin. Our results recommend 2″OMeNAD-2-DTB as a novel affinity-tag probe of RNA 2′-phosphate modification. We synthesized a fluorescent derivative, 2″OMeNAD-2-TAMRA, and found that it, too, is an effective step 1 substrate for RslTpt1 that allows fluorescent labeling of an RNA 2′-phosphate.

Keywords

  • Received July 29, 2025.
  • Accepted September 3, 2025.

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