Structures of RNA phosphotransferase Tpt1 reveal distinct binding modes for an RNA 2′-PO4 splice junction versus a 5′-PO4 mononucleotide

  1. Stewart Shuman1
  1. 1Molecular Biology Program, Memorial Sloan Kettering Cancer Center, New York, New York 10065, USA
  2. 2Chemistry Department, McGill University, Montreal, Quebec, Canada H3A0B8
  1. Corresponding author: shumans{at}mskcc.org
  1. Handling editor: Eric Phizicky

Abstract

Tpt1 is a widely distributed enzyme that removes an internal RNA 2′-phosphate by transfer to NAD+, via a two-step reaction in which: (i) the RNA 2′-PO4 attacks NAD+ to form an RNA-2′-phospho-(ADP-ribose) intermediate and expel nicotinamide; and (ii) the ADP-ribose O2″ attacks the RNA 2′-phosphodiester to form 2′-OH RNA and ADP-ribose-1″,2″-cyclic phosphate products. Tpt1 can also execute a single-step ADP-ribosyltransferase reaction at a 5′-monophosphate nucleic acid terminus that installs a 5′-phospho-ADP-ribose cap structure. Here we present crystal structures of Tpt1 bound to an RNA containing an internal 2′-PO4 mark (the substrate for the canonical Tpt1 pathway) and in a complex with 5′-AMP. We find that Tpt1 has distinct binding modes, whereby the RNA 2′-PO4 and the AMP 5′-PO4 are engaged by the same set of active site amino acids, but the 2′-PO4 nucleoside and the 5′-nucleoside occupy different sites on the enzyme.

Keywords

  • Received March 4, 2025.
  • Accepted April 9, 2025.

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