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In vitro uridine insertion RNA editing mediated by cis-acting guide RNAs

Published online by Cambridge University Press:  01 May 1999

STEPHEN T. KAPUSHOC
Affiliation:
Department of Molecular, Cell, and Developmental Biology, University of California at Los Angeles, Los Angeles, California 90095-1606, USA
LARRY SIMPSON
Affiliation:
Department of Molecular, Cell, and Developmental Biology, University of California at Los Angeles, Los Angeles, California 90095-1606, USA Howard Hughes Medical Institute, University of California at Los Angeles, Los Angeles, California 90095-1662, USA Department of Medical Microbiology, Immunology and Molecular Genetics, University of California at Los Angeles School of Medicine, Los Angeles, California 90095-1662, USA
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Abstract

Uridine (U) insertion/deletion editing of mitochondrial mRNAs in kinetoplastid protozoa is a posttranscriptional process mediated by guide RNAs (gRNAs). The gRNAs direct the precise insertion and deletion of Us by a cleavage–ligation mechanism involving base pairing. We show that a cognate gRNA in cis at the 3′ end of a preedited NADH dehydrogenase 7 (ND7) mRNA substrate can direct U insertions at editing site 1 when incubated with a mitochondrial lysate from Leishmania tarentolae. The efficiency of gRNA-dependent U insertion mediated by a cis-acting gRNA is greater on a molar basis than that for a trans-acting gRNA, as expected for a unimolecular gRNA:mRNA interaction. Blocking the 3′ end of a cis-acting gRNA lacking a 3′ oligo[U] tail has no effect on gRNA-dependent U insertions, nor does providing the gRNA in cis upstream of the mRNA, confirming the previous observation that the terminal 2′- and 3′-hydroxyls of the gRNA are not involved in U insertion activity. These results also establish that the oligo[U] tail is not required for U insertion in vitro. Increasing the extent of base pairing between the 3′ end of the gRNA and the 5′ end of the mRNA significantly increases in vitro gRNA-dependent U insertion at site 1, presumably by maintaining the mRNA 5′ cleavage fragment within the editing complex. We speculate that, in vivo, protein:RNA and/or protein:protein interactions may be responsible for maintaining the mRNA 5′ cleavage fragment in close proximity to the mRNA 3′ cleavage fragment, and that such interactions may be rate limiting in vitro.

Type
Research Article
Copyright
© 1999 RNA Society

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