Johannes Köller scite author profile

RNA editing is a mitochondrial transcript maturation process which evolved in kinetoplastid protozoa. It entails the insertion and deletion of exclusively uridine nucleotides directed by gRNAs into pre-mRNAs. Other participating components are not currently known. The aim of this study was to identify mitochondrial proteins that are in direct physical contact with gRNAs thereby possibly involved in the editing reaction. At low monovalent cation concentration (30 mM KCl) 8 polypeptides with apparent molecular weights ranging from 124 to 9 kDa specifically cross-linked to gRNAs. Three of the proteins, 90, 21, and 9 kDa in size, were able to bind at higher salt concentrations (> or = 100 mM) indicating an enhanced affinity to the gRNA molecules. No cross-links were identified at > or = 250 mM KCl. Four gRNAs, specific for different editing domains of the ATPase 6 and ND7 pre-mRNAs, were in contact with the same set of mitochondrial polypeptides suggesting the assembly of an identical RNP complex that does not include pre-mRNA molecules. The binding of the 90 kDa protein was sensitive to the presence of U-nucleotides at the 3'-end of the gRNAs and could specifically be blocked by modifying free sulfhydryl groups. The interaction with the 124 kDa polypeptide was inhibited by vanadyl ribonucleosides, implicating a role for 2', 3' hydroxyl groups in the gRNA-protein interaction.

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Automated analysis of quetiapine and other antipsychotic drugs in human blood by high performance-liquid chromatography with column-switching and spectrophotometric detection

Sachse

Köller

Härtter

et al. 2006

Journal of Chromatography B

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Trypanosoma brucei gBP21

Köller

Müller

Schmid

et al. 1997

Journal of Biological Chemistry

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RNA editing in Trypanosoma brucei is a mitochondrial RNA processing reaction that results in the insertion and deletion of uridylate residues into otherwise untranslatable mRNAs. The process is directed by guide RNAs which function to specify the edited sequence. RNA editing in vitro requires mitochondrial protein extracts and guide RNAs have been identified as part of high molecular weight ribonucleoprotein complexes. Within the complexes, the RNAs are in close contact with several mitochondrial proteins and here we describe the isolation and cloning of a gRNA-interacting polypeptide from Trypanosoma brucei. The protein was named gBP21 for guide RNA-binding protein of 21 kDa. gBP21 shows no homology to proteins in other organisms, it is arginine-rich and binds to gRNA molecules with a dissociation constant in the nanomolar range. The protein does not discriminate for differences in the primary structures of gRNAs and thus likely binds to higher order structural features common to all gRNA molecules. gBP21 binding does not perturb the overall structure of gRNAs but the gRNA/gBP21 ribonucleoprotein complex is more stable than naked guide RNAs. Although the protein is arginine-rich, the free amino acid or an arginine-rich peptide were not able to inhibit the association to the RNAs. In contrast, the gRNAgBP21 complex formation was sensitive to potassium and ammonium cations, thus indicating a contribution of ionic contacts to the binding.

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Multicomponent complexes involved in kinetoplastid RNA editing

Göringer¹,

Köller²,

Shu³

1995

Parasitology Today

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