Abstract
During RNA maturation in trypanosomatid protozoa, trans-splicing transfers the spliced leader (SL) sequence and its cap from the SL RNA to the 5' end of all mRNAs. In Trypanosoma brucei and Crithidia fasciculata the SL RNA has an unusual cap structure with four methylated nucleotides following the 7-methylguanosine residue (cap 4). Since modification of the 5' end of the SL RNA is a pre-requisite for trans-splicing activity in T. brucei, we have begun to characterize the enzyme(s) involved in this process. Here we report the development of a T. brucei cell-free system for modification of the cap of the SL RNA. Analysis of the nucleotide composition of the in vitro generated cap structure by two-dimensional thin layer chromatography established that the in vitro reaction is accurate. Cap 4 formation requires the SL RNA to be in a ribonucleoprotein particle and can be inhibited by annealing a complementary 2'-O-methyl RNA oligonucleotide to nucleotides 7-18 of the SL RNA. Methylation of the 5' end of the SL RNA is also required for trans-splicing in T. cruzi and Leishmania amazonensis and cell-free extracts from C. fasciculata and L. amazonensis are capable of modifying the cap structure on the T. brucei SL ribonucleoprotein particle.
Highlights
From the Department ofUnternal Medicine and §Cell Biology, Yale University School of Medicine, New Haven, Connecticut 06520-8022
Methylation of the 5' end of the spliced leader (SL) RNA is required for trans-splicing in T. cruzi and Leishmania amazonensis and cell-free extracts from C. fasciculata and L. amazonensis are capable of modifying the cap structure on the T. brucei SL ribonucleoprotein particle
Assays for Modifications-We have previously shown that methylation of the SL cap 4 structure is required for utilization of the SL RNA in trans-splicing by blocking de novo methylations in permeable trypanosome cells with Ado-Hey (14)
Summary
Methylation of the 5' end of the SL RNA is required for trans-splicing in T. cruzi and Leishmania amazonensis and cell-free extracts from C. fasciculata and L. amazonensis are capable of modifying the cap structure on the T. brucei SL ribonucleoprotein particle. With the exception of tRNA molecules, which contain a high number and a complex variety of modified nucleosides, all other RNAs analyzed to date are modified by addition of methyl groups either to the ribose moiety, to the base, or to both, or by modification of uridine to pseudouridine The significance of these modified nucleotides in the function and metabolism of RNAs other than tRNAs is not fully understood. Examples include the very 5' end of Ul snRNA, the 5' -half of U2 snRNA, the conserved loop of U5 snRNA, and the conserved ACAGAG sequence of U6 snRNA
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