Structures of RNA phosphotransferase Tpt1 reveal distinct binding modes for an RNA 2′-PO4 splice junction versus a 5′-PO4 mononucleotide
- 1Molecular Biology Program, Memorial Sloan Kettering Cancer Center, New York, New York 10065, USA
- 2Chemistry Department, McGill University, Montreal, Quebec, Canada H3A0B8
- Corresponding author: shumans{at}mskcc.org
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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.
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Article is online at http://www.rnajournal.org/cgi/doi/10.1261/rna.080444.125.
- Received March 4, 2025.
- Accepted April 9, 2025.
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