A large nucleolar U3 ribonucleoprotein required for 18S ribosomal RNA biogenesis (original) (raw)
Weinberg, R. A. & Penman, S. Small molecular weight monodisperse nuclear RNA. J. Mol. Biol.38, 289–304 (1968) ArticleCAS Google Scholar
Nakamura, T., Prestayko, A. W. & Busch, H. Studies on nucleolar 4 to 6S ribonucleic acid of Novikoff hepatoma cells. J. Biol. Chem.243, 1368–1375 (1968) CASPubMed Google Scholar
Venema, J. & Tollervey, D. Ribosome synthesis in Saccharomyces cerevisiae. Annu. Rev. Genet.33, 261–311 (1999) ArticleCAS Google Scholar
Maxwell, E. S. & Fournier, M. J. The small nucleolar RNAs. Ann. Rev. Biochem.64, 897–934 (1995) ArticleCAS Google Scholar
Watkins, N. J. et al. A common core RNP structure shared between the small nucleolar box C/D RNPs and the spliceosomal U4 snRNP. Cell103, 457–466 (2000) ArticleCAS Google Scholar
Lubben, B., Marshallsay, C., Rottman, N. & Luhrmann, R. Isolation of U3 snoRNP from CHO cells: a novel 55 kDa protein binds to the central part of U3 snoRNA. Nucleic Acids Res.21, 5377–5385 (1993) ArticleCAS Google Scholar
Rigaut, G., Shevchenko, A., Rutz, B., Wilm, M. & Seraphin, B. A generic protein purification method for protein complex characterization and proteome exploration. Nature Biotechnol.17, 1030–1032 (1999) ArticleCAS Google Scholar
Wiederkehr, T., Pretot, R. F. & Minvielle-Sebastia, L. Synthetic lethal interactions with conditional poly(A) polymerase alleles identify LCP5, a gene involved in 18S rRNA maturation. RNA4, 1357–1372 (1998) ArticleCAS Google Scholar
Billy, E., Wegierski, T., Nasr, F. & Filipowicz, W. Rcl1p, the yeast protein similar to the RNA 3′-phosphate cyclase, associates with U3 snoRNP and is required for 18S rRNA biogenesis. EMBO J.19, 2115–2126 (2000) ArticleCAS Google Scholar
Wegierski, T., Billy, E., Nasr, F. & Filipowicz, W. Bms1p, a G-domain-containing protein, associates with Rcl1p and is required for 18S rRNA biogenesis in yeast. RNA7, 1254–1267 (2001) ArticleCAS Google Scholar
Chung, S., McLean, M. R. & Rymond, B. C. Yeast ortholog of the Drosophila crooked neck protein promotes spliceosome assembly through stable U4/U6.U5 snRNP addition. RNA5, 1042–1054 (1999) ArticleCAS Google Scholar
Shou, W. et al. Exit from mitosis is triggered by Tem1-dependent release of the protein phosphatase Cdc14 from nucleolar RENT complex. Cell97, 233–244 (1999) ArticleCAS Google Scholar
Kamakaka, R. & Rine, J. Sir- and silencer-independent disruption of silencing in Saccharomyces by Sas10p. Genetics149, 903–914 (1998) CASPubMedPubMed Central Google Scholar
Fournier, M. J. & Maxwell, E. S. The nucleolar snRNAs: catching up with the spliceosomal snRNAs. Trends Biochem. Sci.18, 131–135 (1993) ArticleCAS Google Scholar
Venema, J. & Tollervey, D. Processing of pre-ribosomal RNA in Saccharomyces cerevisiae. Yeast11, 1629–1650 (1995) ArticleCAS Google Scholar
Miller, O. L. Jr & Beatty, B. R. Visualization of nucleolar genes. Science164, 955–957 (1969) ArticleADS Google Scholar
Mougey, E. B. et al. The terminal balls characteristic of eucaryotic rRNA transcription units in chromatin spread are rRNA processing complexes. Genes Dev.7, 1609–1619 (1993) ArticleCAS Google Scholar
Lee, S. J. & Baserga, S. J. Functional separation of pre-rRNA processing steps revealed by truncation of the U3 small nucleolar ribonucleoprotein component, Mpp10. Proc. Natl Acad. Sci. USA94, 13536–13541 (1997) ArticleADSCAS Google Scholar
Wehner, K. A. & Baserga, S. J. The σ70-like motif: a eukaryotic RNA binding domain unique to a superfamily of proteins required for ribosome biogenesis. Mol. Cell9, 329–339 (2002) ArticleCAS Google Scholar
Knop, M. et al. Epitope tagging of yeast genes using a PCR-based strategy: more tags and improved practical routines. Yeast15, 963–972 (1999) ArticleCAS Google Scholar
Longtine, M. S. et al. Additional modules for versatile and economical PCR-based gene deletion and modification in Saccharomyces cerevisiae. Yeast14, 953–961 (1998) ArticleCAS Google Scholar
Schneider, B. L., Seufert, W., Steiner, B., Yang, Q. H. & Futcher, A. B. Use of polymerase chain reaction epitope tagging for protein tagging in Saccharomyces cerevisiae. Yeast11, 1265–1274 (1995) ArticleCAS Google Scholar
Ross-MacDonald, P. et al. Large-scale analysis of the yeast genome by transposon tagging and gene disruption. Nature402, 413–418 (1999) ArticleADSCAS Google Scholar
Dunbar, D. A., Dragon, F., Lee, S. J. & Baserga, S. J. A nucleolar protein related to ribosomal protein L7 is required for an early step in large ribosomal subunit biogenesis. Proc. Natl Acad. Sci. USA97, 13027–13032 (2000) ArticleADSCAS Google Scholar
Dunbar, D. A., Wormsley, S., Agentis, T. M. & Baserga, S. J. Mpp10p, a U3 small nucleolar ribonucleoprotein component required for pre-18S rRNA processing in yeast. Mol. Cell. Biol.17, 5803–5812 (1997) ArticleCAS Google Scholar
Lee, S. J. & Baserga, S. J. Imp3p and Imp4p: two specific components of the U3 small nucleolar ribonucleoprotein that are essential for pre-18S rRNA processing. Mol. Cell. Biol.19, 5441–5452 (1999) ArticleCAS Google Scholar
Hughes, J. M. X. & Ares, M. Jr Depletion of U3 small nucleolar RNA inhibits cleavage in the 5′ external transcribed spacer of yeast pre-ribosomal RNA and prevents formation of 18S ribosomal RNA. EMBO J.10, 4231–4239 (1991) ArticleCAS Google Scholar
Samarsky, D. A. & Fournier, M. J. Functional mapping of the U3 small nucleolar RNA from the yeast Saccharomyces cerevisiae. Mol. Cell. Biol.18, 3431–3444 (1998) ArticleCAS Google Scholar
Osheim, Y. N. & Beyer, A. L. Electron microscopy of RNP complexes on nascent RNA using the Miller chromatin spreading method. Methods Enzymol.180, 481–509 (1989) ArticleCAS Google Scholar