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An RNA editing-like internal uridine (U) incorporation activity (G. C. Frech, N. Bakalara, L Simpson, and A. M. Simpson, EMBO J. 14:178-187, 1995) and a 3'-terminal U addition activity (N. Bakalara, A. M. Simpson, and L. Simpson, J. Biol. Chem. 264:18679-18686, 1989) have been previously described by using a mitochondrial extract from Leishmania tarentolae. Chiral phosphorothioates were used to investigate the stereoconfiguration requirements and the stereochemical course of these nucleotidyl transfer reactions. The extract utilizes (SP)-alpha-S-UTP for both 3' and internal U incorporation into substrate RNA. The internal as well as the 3' incorporation of (SP)-alpha-S-UTP proceeds via inversion of the stereoconfiguration. Furthermore, internal U incorporation does not occur at sites containing thiophosphodiesters of the RP configuration. Our results are compatible with an enzyme cascade model for this in vitro U insertion activity involving sequential endonuclease and uridylyl transferase directly from UTP and RNA ligase steps and are incompatible with models involving the transfer of U residues from the 3' ends of guide RNAs.

molecular and cellular biology

Uridine Insertion into Preedited mRNA by a Mitochondrial Extract from <i>Leishmania tarentolae</i>: Stereochemical Evidence for the Enzyme Cascade Model

Uridine Insertion into Preedited mRNA by a Mitochondrial Extract from Leishmania tarentolae: Stereochemical Evidence for the Enzyme Cascade Model