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Mrd1p is required for processing of pre-rRNA and for maintenance of steady-state levels of 40S ribosomal subunits in yeast
Stockholm University, Faculty of Science, Department of Molecular Biology and Functional Genomics.
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2002 In: The Journal of Biological Chemistry, ISSN 1083-351X, no 277, 18431-18439 p.Article in journal (Refereed) Published
Place, publisher, year, edition, pages
2002. no 277, 18431-18439 p.
URN: urn:nbn:se:su:diva-23319OAI: diva2:191369
Part of urn:nbn:se:su:diva-24Available from: 2004-01-21 Created: 2004-01-21Bibliographically approved
In thesis
1. Molecular Cloning and Functional Characterization of Factors Involved in Post-transcriptional Gene Expression
Open this publication in new window or tab >>Molecular Cloning and Functional Characterization of Factors Involved in Post-transcriptional Gene Expression
2004 (English)Doctoral thesis, comprehensive summary (Other academic)
Abstract [en]

Gene expression in the eukaryotic cell is a fundamental cellular process, which consists of several distinct steps but extensively coupled to each other. From site of transcription in the nucleus to the cytoplasm, both mRNA and rRNA are associated with a proper set of proteins. These proteins influence RNA processing, transport as well as ribosome maturation. We have tried to take advantage of different model systems to understand the process of eukaryotic gene expression at the post-transcription level. To this end, we have focused on identification and characterization of several specific proteins in the context of mRNP and rRNP particles.

We have characterized a novel yeast gene MRD1, which encodes a protein with five RNA-binding domains (RBDs) and is essential for viability. Mrd1p is present in the nucleolus and the nucleoplasm. Depletion of Mrd1p leads to a decrease in the synthesis of 18S rRNA and 40S ribosomal subunits. Mrd1p associates with the 35S prerRNA and the U3 snoRNA and is required for the initial processing of pre-rRNA at the A0-A2 sites. The presence of five RBDs in Mrd1p suggests that Mrd1p may function to correctly fold pre-rRNA, a requisite for proper cleavage.

Meanwhile, an MRD1 homologue, Ct-RBD-1 with six RBDs, has also been identified and shown to involve in ribosome biogenesis in Chironomus tentans. Ct-RBD-1 binds pre-rRNA in vitro and anti-Ct-RBD-1 antibodies repress pre-rRNA processing in vivo. Ct-RBD-1 is mainly located in the nucleolus in an RNA polymerase I transcription-dependent manner, but it is also present in discrete foci in the interchromatin and in the cytoplasm. In the cytoplasm, Ct-RBD-1 is associated with ribosomes and, preferentially, with the 40S ribosomal subunit. Our data suggest that Ct-RBD-1 plays a role in structurally coordinating pre-rRNA during ribosome biogenesis and that this function is conserved in all eukaryotes.

We have characterized a novel abundant nucleolar protein, p100 in C. tentans. The p100 protein is located in the fibrillar compartment of the nucleolus, and remains in the nucleolus after digestion with nucleases. This indicates that p100 might be a constituent of the nucleolar proteinaceous framework. Remarkably, p100 is also localized in the brush border in the apical part of the salivary gland cell. These results suggest that it could be involved in coordination of the level of protein production and export from the cell through regulation of the level of rRNA production in the nucleolus.

We have characterized a Dbp5 homologue in C. tentans, Ct-Dbp5. The protein becomes associated with nascent pre-mRNAs at a large number of active genes, including the Balbiani ring (BR) genes. Ct-Dbp5 is bound to nascent BR pre-mRNP particles and accompanies them through the nucleoplasm and the nuclear pore into the cytoplasm. Nuclear accumulation of Ct-Dbp5 takes place when synthesis and/or export of mRNA are inhibited. Our results indicate that most or all of the shuttling Ct-Dbp5 exiting from the nucleus associated with mRNP. Furthermore, Ct-Dbp5 is present along the mRNP fibril extending into the cytoplasm, supporting the view that Ct-Dbp5 is involved in restructuring the mRNP prior to translation.

We have shown that the export receptor CRM1 in C. tentans is associated with BR pre-mRNP while transcription takes place. We have also shown that the GTPase Ran binds to BR pre-mRNP, but its binding mainly in the interchromatin. Although both CRM1 and Ran accompany BR pre-mRNP through the nuclear pore, Leptomycin B treatment reveals that a NES-CRM1-RanGTP complex is not essential for export of the BR mRNP. Our results suggest that several export receptors associate with BR mRNP and that these receptors might have redundant functions in the nuclear export of BR mRNP.

We have analyzed four SR proteins, SC35, ASF/SF2, 9G8 and hrp45, in C. tentans. All four SR proteins genes are expressed in salivary gland cells and in several other tissues in a tissue specific pattern. We found that about 90% of all nascent pre-mRNAs bind all four SR proteins, and that approximately 10% of the pre-mRNAs associate with different subsets of the four SR proteins, suggesting that not all of four SR proteins are needed for processing of pre-mRNA. None of three examined SR proteins leave BR pre-mRNP as splicing is completed. Instead, 9G8 accompanies the mRNP to the cytoplasm, while SC35 and hrp45 leave the BR mRNP at the nuclear side of the nuclear pore complex.

Place, publisher, year, edition, pages
Inst för molekylärbiologi och funktionsgenomik, 2004. 67 p.
gene expression, pre-mRNA processing, pre-rRNA processing
National Category
Biochemistry and Molecular Biology
urn:nbn:se:su:diva-24 (URN)91-7265-781-2 (ISBN)
Public defence
2004-02-20, sal G, Arrheniuslaboratorierna, Svante Arrhenius väg 14-18, Stockholm, 10:00
Available from: 2004-01-21 Created: 2004-01-21 Last updated: 2010-11-02Bibliographically approved

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