Daren Osato scite author profile

Daren Osato

3Publications

82Citation Statements Received

141Citation Statements Given

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University of California, Los Angeles

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Structure of the core editing complex (L-complex) involved in uridine insertion/deletion RNA editing in trypanosomatid mitochondria

Li¹,

Hui

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

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Uridine insertion/deletion RNA editing is a unique form of posttranscriptional RNA processing that occurs in mitochondria of kinetoplastid protists. We have carried out 3D structural analyses of the core editing complex or ''L (ligase)-complex'' from Leishmania tarentolae mitochondria isolated by the tandem affinity purification procedure (TAP). The purified material, sedimented at 20 -25S, migrated in a blue native gel at 1 MDa and exhibited both precleaved and full-cycle gRNA-mediated U-insertion and U-deletion in vitro activities. The purified L-complex was analyzed by electron tomography to determine the extent of heterogeneity. Three-dimensional structural comparisons of individual particles in the tomograms revealed that a majority of the complexes have a similar shape of a slender triangle. An independent single-particle reconstruction, using a featureless Gaussian ball as the initial model, converged to a similar triangular structure. Another singleparticle reconstruction, using the averaged tomography structure as the initial model, yielded a similar structure. The REL1 ligase was localized on the model to the base of the apex by decoration with REL1-specific IgG. This structure should prove useful for a detailed analysis of the editing reaction.editing ͉ electron microscopy ͉ kinetoplast ͉ Leishmania ͉ trypanosome U ridine (U) insertion/deletion RNA editing is a posttranscriptional process in mitochondria of kinetoplastid protists that involves the modification of mRNA transcripts of mitochondrial cryptogenes by precise insertion and deletion of U residues to create translatable sequences (1-3). We previously proposed a model for the mechanism of this editing process involving a cleavage, addition or deletion of U's and ligation progressing in a 3Ј to 5Ј polarity (4), and this model has been since experimentally validated in almost every detail (5-10).Editing involves multiple multiprotein complexes associated by RNA linkers. The core editing complex, known as the L-complex, ''20S complex,'' ''editosome,'' or ''ϳ20S editosome,'' was detected by following the sedimentation and gel filtration of 2 adenylatable RNA ligases using Leishmania tarentolae and Trypanosoma brucei mitochondrial extracts (11,12). The activity sedimented around 20 -25S and migrated as a single band in a native gel (13). A ϳ20S multiprotein complex that showed both U-insertion and U-deletion in vitro activities was also purified from T. brucei mitochondria by column chromatography. An improved isolation of the L-complex from L. tarentolae was achieved by the tandem affinity purification procedure (TA P) (14); TA P-tagged plasmidexpressed REL1 became incorporated into the L-complex in vivo, allowing isolation of tagged complexes.Fourteen proteins were initially identified by mass spectrometry of the L. tarentolae REL1-TAP pull-down (14). All of the L. tarentolae proteins had homologs in T. brucei, and several additional proteins found in the T. brucei L-complex (15) were later identified in L. tarentolae (Tables S1 and S2).Two 3-prot...

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Uridine insertion/deletion RNA editing in trypanosomatid mitochondria: In search of the editosome

Osato

Rogers²,

Guo³

et al. 2009

RNA

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The RNA ligase-containing or L-complex is the core complex involved in uridine insertion/deletion RNA editing in trypanosome mitochondria. Blue native gels of glycerol gradient-separated fractions of mitochondrial lysate from cells transfected with the TAP-tagged editing protein, LC-8 (TbMP44/KREPB5), show a ;1 MDa L-complex band and, in addition, two minor higher molecular weight REL1-containing complexes: one (L*a) co-sedimenting with the L-complex and running in the gel at around 1.2 MDa; the other (L*b) showing a continuous increase in molecular weight from 1 MDa to particles sedimenting over 70S. The L*b-complexes appear to be mainly composed of L-complex components, since polypeptide profiles of L-and L*b-complex gradient fractions were similar in composition and L*b-complex bands often degraded to L-complex bands after manipulation or freeze-thaw cycles. The L*a-complex may be artifactual since this gel shift can be produced by various experimental manipulations. However, the nature of the change and any cellular role remain to be determined. The L*b-complexes from both lysate and TAP pull-down were sensitive to RNase A digestion, suggesting that RNA is involved with the stability of the L*b-complexes. The MRP1/2 RNA binding complex is localized mainly in the L*b-complexes in substoichiometric amounts and this association is RNase sensitive. We suggest that the L*b-complexes may provide a scaffold for dynamic interaction with other editing factors during the editing process to form the active holoenzyme or ''editosome.''

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Uridine Insertion/Deletion RNA Editing in Trypanosomatids: Specific Stimulation in vitro of Leishmania tarentolae REL1 RNA Ligase Activity by the MP63 Zinc Finger Protein

Gao¹,

Rogers

et al. 2010

Protist

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U-insertion/deletion RNA editing of mitochondrial mRNAs in trypanosome mitochondria is mediated by a core complex (RECC) containing around 16–20 proteins which is linked to several other multiprotein complexes by RNA. There are two known subcomplexes in the RECC: the REL1 subcomplex which contains the REL1 RNA ligase, the MP63 zinc finger-containing protein and the REX2 U-specific 3'-5' exonuclease; and the REL2 subcomplex which contains the REL2 RNA ligase, the RET2 3' TUTase and the MP81 zinc finger-containing protein. In this study we have affinity isolated recombinant TAP-tagged Leishmania major RET2 and Leishmania tarentolae MP63, REL1 and REL2 proteins after expression in baculovirus-infected insect cells. Recombinant MP63 protein was found to stimulate several in vitro activities of recombinant REL1; these activities include autoadenylation, bridged ligation and even pre-cleaved gRNA-mediated U-insertion editing with RET2 which is in the REL2 subcomplex. There was no effect of recombinant MP63 on similar REL2 ligation activities. The specificity for REL1 is consistent with MP63 being a component of the REL1 subcomplex. These results suggest that in vivo the interaction of MP63 with REL1 may play a role in regulating the overall activity of RNA editing.

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Daren Osato

Structure of the core editing complex (L-complex) involved in uridine insertion/deletion RNA editing in trypanosomatid mitochondria

Uridine insertion/deletion RNA editing in trypanosomatid mitochondria: In search of the editosome

Uridine Insertion/Deletion RNA Editing in Trypanosomatids: Specific Stimulation in vitro of Leishmania tarentolae REL1 RNA Ligase Activity by the MP63 Zinc Finger Protein

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