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1.
Nucleic Acids Res ; 49(7): 4066-4084, 2021 04 19.
Artículo en Inglés | MEDLINE | ID: mdl-33721027

RESUMEN

RNA helicases play important roles in diverse aspects of RNA metabolism through their functions in remodelling ribonucleoprotein complexes (RNPs), such as pre-ribosomes. Here, we show that the DEAD box helicase Dbp3 is required for efficient processing of the U18 and U24 intron-encoded snoRNAs and 2'-O-methylation of various sites within the 25S ribosomal RNA (rRNA) sequence. Furthermore, numerous box C/D snoRNPs accumulate on pre-ribosomes in the absence of Dbp3. Many snoRNAs guiding Dbp3-dependent rRNA modifications have overlapping pre-rRNA basepairing sites and therefore form mutually exclusive interactions with pre-ribosomes. Analysis of the distribution of these snoRNAs between pre-ribosome-associated and 'free' pools demonstrated that many are almost exclusively associated with pre-ribosomal complexes. Our data suggest that retention of such snoRNPs on pre-ribosomes when Dbp3 is lacking may impede rRNA 2'-O-methylation by reducing the recycling efficiency of snoRNPs and by inhibiting snoRNP access to proximal target sites. The observation of substoichiometric rRNA modification at adjacent sites suggests that the snoRNPs guiding such modifications likely interact stochastically rather than hierarchically with their pre-rRNA target sites. Together, our data provide new insights into the dynamics of snoRNPs on pre-ribosomal complexes and the remodelling events occurring during the early stages of ribosome assembly.


Asunto(s)
ARN Helicasas DEAD-box/metabolismo , ARN Ribosómico/metabolismo , ARN Nucleolar Pequeño/metabolismo , Ribosomas/metabolismo , Proteínas de Saccharomyces cerevisiae/metabolismo , Escherichia coli , Metilación , Precursores del ARN/metabolismo , Levaduras/enzimología
2.
J Vis Exp ; (159)2020 05 09.
Artículo en Inglés | MEDLINE | ID: mdl-32449723

RESUMEN

The interaction between RNA-binding proteins (RBPs) and their RNA substrates exhibits fluidity and complexity. Within its lifespan, a single RNA can be bound by many different RBPs that will regulate its production, stability, activity, and degradation. As such, much has been done to understand the dynamics that exist between these two types of molecules. A particularly important breakthrough came with the emergence of 'cross-linking and immunoprecipitation' (CLIP). This technique allowed stringent investigation into which RNAs are bound by a particular RBP. In short, the protein of interest is UV cross-linked to its RNA substrates in vivo, purified under highly stringent conditions, and then the RNAs covalently cross-linked to the protein are converted into cDNA libraries and sequenced. Since its conception, many derivative techniques have been developed in order to make CLIP amenable to particular fields of study. However, cross-linking using ultraviolet light is notoriously inefficient. This results in extended exposure times that make the temporal study of RBP-RNA interactions impossible. To overcome this issue, we recently designed and built much-improved UV irradiation and cell harvesting devices. Using these new tools, we developed a protocol for time-resolved analyses of RBP-RNA interactions in living cells at high temporal resolution: Kinetic CRoss-linking and Analysis of cDNAs (χCRAC). We recently used this technique to study the role of yeast RBPs in nutrient stress adaptation. This manuscript provides a detailed overview of the χCRAC method and presents recent results obtained with the Nrd1 RBP.


Asunto(s)
Biblioteca de Genes , Unión Proteica/genética , Proteínas/metabolismo , ARN/metabolismo
3.
Nat Struct Mol Biol ; 19(8): 744-53, 2012 Aug.
Artículo en Inglés | MEDLINE | ID: mdl-22751017

RESUMEN

In the final steps of yeast ribosome synthesis, immature translation-incompetent pre-40S particles that contain 20S pre-rRNA are converted to the mature translation-competent subunits containing the 18S rRNA. An assay for 20S pre-rRNA cleavage in purified pre-40S particles showed that cleavage by the PIN domain endonuclease Nob1 was strongly stimulated by the GTPase activity of Fun12, the yeast homolog of cytoplasmic translation initiation factor eIF5b. Cleavage of the 20S pre-rRNA was also inhibited in vivo and in vitro by blocking binding of Fun12 to the 25S rRNA through specific methylation of its binding site. Cleavage competent pre-40S particles stably associated with Fun12 and formed 80S complexes with 60S ribosomal subunits. We propose that recruitment of 60S subunits promotes GTP hydrolysis by Fun12, leading to structural rearrangements within the pre-40S particle that bring Nob1 and the pre-rRNA cleavage site together.


Asunto(s)
Factor 2 Eucariótico de Iniciación/metabolismo , Subunidades Ribosómicas Grandes de Eucariotas/metabolismo , Subunidades Ribosómicas Pequeñas de Eucariotas/metabolismo , Proteínas de Saccharomyces cerevisiae/metabolismo , Saccharomyces cerevisiae/metabolismo , Adenosina Trifosfato/metabolismo , Secuencia de Bases , Sitios de Unión , Factor 2 Eucariótico de Iniciación/química , Guanosina Trifosfato/metabolismo , Modelos Moleculares , Datos de Secuencia Molecular , Proteínas Nucleares/metabolismo , Conformación de Ácido Nucleico , Conformación Proteica , Precursores del ARN/química , Precursores del ARN/genética , Precursores del ARN/metabolismo , Procesamiento Postranscripcional del ARN , ARN de Hongos/química , ARN de Hongos/genética , ARN de Hongos/metabolismo , ARN Ribosómico/química , ARN Ribosómico/genética , ARN Ribosómico/metabolismo , Subunidades Ribosómicas Grandes de Eucariotas/química , Subunidades Ribosómicas Pequeñas de Eucariotas/química , Saccharomyces cerevisiae/genética , Proteínas de Saccharomyces cerevisiae/química
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