Trina Ghosh scite author profile

U8 snoRNP is required for accumulation of mature 5.8S and 28S rRNA in vertebrates. We are identifying proteins that bind U8 RNA with high specificity to understand how U8 functions in ribosome biogenesis. Here, we characterize a Xenopus 29 kDa protein (X29), which we previously showed binds U8 RNA with high affinity. X29 and putative homologs in other vertebrates contain a NUDIX domain found in MutT and other nucleotide diphosphatases. Recombinant X29 protein has diphosphatase activity that removes m(7)G and m(227)G caps from U8 and other RNAs in vitro; the putative 29 kDa human homolog also displays this decapping activity. X29 is primarily nucleolar in Xenopus tissue culture cells. We propose that X29 is a member of a conserved family of nuclear decapping proteins that function in regulating the level of U8 snoRNA and other nuclear RNAs with methylated caps.

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Import of small RNAs intoLeishmaniamitochondriain vitro

Mahapatra

Ghosh

Adhya

1994

Nucl Acids Res

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Using an in vitro ribonuclease protection assay, it was shown that synthetic antisense transcripts from the 5'-upstream region of the 3-tubulin gene are efficiently imported into isolated Leishmania mitochondria. Import occurred after a lag of about 30 min at 250C and was dependent on ATP. Preincubation experiments suggested that import consists of a slow interaction of mitochondria with RNA, followed by rapid ATPdependent uptake. Import was saturable with antisense RNA at about 1 nM concentration, and sequencespecific, as shown by lack of import of other labelled transcripts. Deletion analysis demonstrated a correlation between efficiency of import and the number of oligopurine motifs on the antisense RNA. Several small ribosomal RNAs (srRNAs) and Leishmania tRNA competed with antisense RNA for import. Incubation of mitochondria with srRNAs and tRNA in the presence of radiolabelled UTP resulted in the ribonuclease-resistant labelling of these RNAs by the mitochondrial terminal uridylyl transferase. Extracts of isolated mitochondria contain a factor binding to antisense RNA, as shown by gel retardation assay. These observations indicate the presence of a receptormediated import pathway for srRNAs and tRNA in Leishmania mitochondria.

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Role of an RNA-binding Protein in Import of tRNA into Leishmania Mitochondria

Adhya

Ghosh²,

Das³

et al. 1997

Journal of Biological Chemistry

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Interaction of small ribosomal and transfer RNAs with a protein fromLeishmania donovani

Ghosh

et al. 1994

Nucl Acids Res

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Using synthetic antisense RNA from the 5'-untranslated region of the beta-tubulin gene as probe in gel retardation assays, a heat stable RNA-binding factor was identified in promastigotes of the kinetoplastid protozoan Leishmania donovani. The same or similar factors interact with several small ribosomal RNA (srRNA) species and, more weakly, with tRNA, as shown by binding and competition experiments. Deletion analysis indicated involvement of repeated purine-rich motifs on the antisense RNA, in the reaction. Related, conserved motifs occur on at least two of the srRNAs. By a modified Western blot assay, the RNA-binding species was identified as a single, small polypeptide. The activity is apparently specific for the promastigote stage of the parasite, being undetectable in amastigotes. The properties of this RNA-binding factor suggest that it is a novel, previously uncharacterized protein.

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Trina Ghosh

Xenopus U8 snoRNA Binding Protein Is a Conserved Nuclear Decapping Enzyme

Import of small RNAs intoLeishmaniamitochondriain vitro

Role of an RNA-binding Protein in Import of tRNA into Leishmania Mitochondria

Interaction of small ribosomal and transfer RNAs with a protein fromLeishmania donovani

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