| scholarly article | Q13442814 |
| P50 | author | David Tollervey | Q21165903 |
| Martin Kos | Q42148724 | ||
| P2860 | cites work | 90S pre-ribosomes include the 35S pre-rRNA, the U3 snoRNP, and 40S subunit processing factors but predominantly lack 60S synthesis factors | Q24302526 |
| Npa1p, a component of very early pre-60S ribosomal particles, associates with a subset of small nucleolar RNPs required for peptidyl transferase center modification | Q27930316 | ||
| Regulation of Pyrimidine Biosynthesis in Saccharomyces cerevisiae | Q27930412 | ||
| The DIM1 gene responsible for the conserved m6(2)Am6(2)A dimethylation in the 3'-terminal loop of 18 S rRNA is essential in yeast | Q27930477 | ||
| Ribosome synthesis in Saccharomyces cerevisiae | Q27935371 | ||
| The economics of ribosome biosynthesis in yeast | Q28131645 | ||
| The post-transcriptional steps of eukaryotic ribosome biogenesis | Q28276470 | ||
| The many pathways of RNA degradation | Q29615760 | ||
| A yeast small nuclear RNA is required for normal processing of pre-ribosomal RNA | Q29620542 | ||
| In exponentially growing Saccharomyces cerevisiae cells, rRNA synthesis is determined by the summed RNA polymerase I loading rate rather than by the number of active genes | Q30310526 | ||
| Pre-18S ribosomal RNA is structurally compacted into the SSU processome prior to being cleaved from nascent transcripts in Saccharomyces cerevisiae | Q30435434 | ||
| Electron microscope visualization of RNA transcription and processing in Saccharomyces cerevisiae by Miller chromatin spreading | Q30447192 | ||
| Ribosome synthesis meets the cell cycle | Q35958186 | ||
| Uracil-induced down-regulation of the yeast uracil permease. | Q38327256 | ||
| Uracil transport inSaccharomyces cerevisiae | Q39165704 | ||
| Secondary Methylation of Yeast Ribosomal Precursor RNA | Q41259963 | ||
| Functional analysis of yeast essential genes using a promoter-substitution cassette and the tetracycline-regulatable dual expression system. | Q53944367 | ||
| The Cytoplasmic Maturation of a Ribosomal Precursor Ribonucleic Acid in Yeast | Q54151635 | ||
| Ribosomal RNA synthesis in Saccharomyces cerevisiae | Q54725005 | ||
| Ribosomal precursor particles from yeast | Q66919166 | ||
| Detailed analysis of the ribosomal RNA synthesis in yeast | Q67337399 | ||
| Methylation and processing of ribosomal RNA in HeLa cells | Q84575623 | ||
| P433 | issue | 6 | |
| P407 | language of work or name | English | Q1860 |
| P304 | page(s) | 809-820 | |
| P577 | publication date | 2010-03-01 | |
| P1433 | published in | Molecular Cell | Q3319468 |
| P1476 | title | Yeast pre-rRNA processing and modification occur cotranscriptionally | |
| P478 | volume | 37 |
| Q41417382 | 18S rRNA: A Tale of the Tail |
| Q57034069 | 2'-O-Methylation of Ribosomal RNA: Towards an Epitranscriptomic Control of Translation? |
| Q34699786 | 5'-end surveillance by Xrn2 acts as a shared mechanism for mammalian pre-rRNA maturation and decay |
| Q27689601 | 60S ribosome biogenesis requires rotation of the 5S ribonucleoprotein particle |
| Q34169572 | A RanGTP-independent mechanism allows ribosomal protein nuclear import for ribosome assembly |
| Q90182381 | A conserved Bcd1 interaction essential for box C/D snoRNP biogenesis |
| Q37541051 | A hierarchical model for assembly of eukaryotic 60S ribosomal subunit domains |
| Q35617284 | A second base pair interaction between U3 small nucleolar RNA and the 5'-ETS region is required for early cleavage of the yeast pre-ribosomal RNA. |
| Q42547174 | A single acetylation of 18 S rRNA is essential for biogenesis of the small ribosomal subunit in Saccharomyces cerevisiae |
| Q27932368 | A translation-like cycle is a quality control checkpoint for maturing 40S ribosome subunits |
| Q47161998 | An Effective Model of the Retinoic Acid Induced HL-60 Differentiation Program. |
| Q35180630 | An overview of pre-ribosomal RNA processing in eukaryotes |
| Q38210936 | Assembly and nuclear export of pre-ribosomal particles in budding yeast |
| Q38974934 | Assembly and trafficking of box C/D and H/ACA snoRNPs |
| Q90070171 | At least two molecules of the RNA helicase Has1 are simultaneously present in pre-ribosomes during ribosome biogenesis |
| Q28115038 | Both endonucleolytic and exonucleolytic cleavage mediate ITS1 removal during human ribosomal RNA processing |
| Q37305067 | Box C/D guide RNAs recognize a maximum of 10 nt of substrates. |
| Q28545102 | Ccr4-not regulates RNA polymerase I transcription and couples nutrient signaling to the control of ribosomal RNA biogenesis |
| Q30413819 | Cohesion promotes nucleolar structure and function |
| Q39317738 | Comparison of preribosomal RNA processing pathways in yeast, plant and human cells - focus on coordinated action of endo- and exoribonucleases. |
| Q28247103 | Cotranscriptional events in eukaryotic ribosome synthesis |
| Q27684829 | Crucial role of the Rcl1p-Bms1p interaction for yeast pre-ribosomal RNA processing |
| Q27001609 | DExD/H-box RNA helicases in ribosome biogenesis |
| Q90361409 | Developmental changes of rRNA ribose methylations in the mouse |
| Q41842016 | Discovery of Chromatin-Associated Proteins via Sequence-Specific Capture and Mass Spectrometric Protein Identification in Saccharomyces cerevisiae |
| Q36931465 | Disruption of ribosome assembly in yeast blocks cotranscriptional pre-rRNA processing and affects the global hierarchy of ribosome biogenesis |
| Q40689793 | Distinct 18S rRNA precursors are targets of the exosome complex, the exoribonuclease RRP6L2 and the terminal nucleotidyltransferase TRL in Arabidopsis thaliana |
| Q30431283 | Distinguishing the roles of Topoisomerases I and II in relief of transcription-induced torsional stress in yeast rRNA genes |
| Q39378718 | Dynamic RNA Modifications in Gene Expression Regulation |
| Q35634153 | Efficient transcription by RNA polymerase I using recombinant core factor. |
| Q27935682 | Elucidation of the assembly events required for the recruitment of Utp20, Imp4 and Bms1 onto nascent pre-ribosomes. |
| Q42434608 | Eukaryote-specific rRNA expansion segments function in ribosome biogenesis |
| Q50206807 | Eukaryotic ribosome assembly, transport and quality control |
| Q47381402 | Evidence for rRNA 2'-O-methylation plasticity: Control of intrinsic translational capabilities of human ribosomes. |
| Q47664727 | Feedback regulation of ribosome assembly. |
| Q35112791 | Final pre-40S maturation depends on the functional integrity of the 60S subunit ribosomal protein L3. |
| Q34110999 | Functional dichotomy of ribosomal proteins during the synthesis of mammalian 40S ribosomal subunits |
| Q34747109 | Functional divergence of eukaryotic RNA polymerases: unique properties of RNA polymerase I suit its cellular role |
| Q34403421 | Functional ultrastructure of the plant nucleolus |
| Q36633632 | Functions of ribosomal proteins in assembly of eukaryotic ribosomes in vivo. |
| Q34638347 | Fungal community analysis by high-throughput sequencing of amplified markers--a user's guide |
| Q92342802 | Genetic analyses led to the discovery of a super-active mutant of the RNA polymerase I |
| Q34471561 | Genetic analysis of the ribosome biogenesis factor Ltv1 of Saccharomyces cerevisiae |
| Q48220478 | Grc3 programs the essential endoribonuclease Las1 for specific RNA cleavage |
| Q27932336 | Hierarchical recruitment into nascent ribosomes of assembly factors required for 27SB pre-rRNA processing in Saccharomyces cerevisiae |
| Q31130961 | Human RNase H1 is associated with protein P32 and is involved in mitochondrial pre-rRNA processing |
| Q27930970 | Identification of novel methyltransferases, Bmt5 and Bmt6, responsible for the m3U methylations of 25S rRNA in Saccharomyces cerevisiae |
| Q27931780 | Identification of novel proteins associated with yeast snR30 small nucleolar RNA |
| Q41125673 | Identification of sites of 2'-O-methylation vulnerability in human ribosomal RNAs by systematic mapping |
| Q27937033 | Imp3 unfolds stem structures in pre-rRNA and U3 snoRNA to form a duplex essential for small subunit processing |
| Q39256442 | In silico methods for co-transcriptional RNA secondary structure prediction and for investigating alternative RNA structure expression |
| Q37921470 | Inside the 40S ribosome assembly machinery |
| Q47145593 | Interdependent action of KH domain proteins Krr1 and Dim2 drive the 40S platform assembly. |
| Q49958749 | Ixr1 Regulates Ribosomal Gene Transcription and Yeast Response to Cisplatin. |
| Q30414922 | Kinetic analysis demonstrates a requirement for the Rat1 exonuclease in cotranscriptional pre-rRNA cleavage |
| Q41751446 | Kinetic analysis of pre-ribosome structure in vivo. |
| Q28255964 | LAS1L interacts with the mammalian Rix1 complex to regulate ribosome biogenesis |
| Q27932560 | Las1 interacts with Grc3 polynucleotide kinase and is required for ribosome synthesis in Saccharomyces cerevisiae |
| Q39677695 | Las1L is a nucleolar protein required for cell proliferation and ribosome biogenesis |
| Q57753811 | Live-Cell Imaging of Chromatin Condensation Dynamics by CRISPR |
| Q33791079 | Live-cell imaging of Pol II promoter activity to monitor gene expression with RNA IMAGEtag reporters |
| Q89449399 | Long-range function of secreted small nucleolar RNAs that direct 2'-O-methylation |
| Q30435228 | Loss of Topoisomerase I leads to R-loop-mediated transcriptional blocks during ribosomal RNA synthesis |
| Q35604407 | Maf1 protein, repressor of RNA polymerase III, indirectly affects tRNA processing |
| Q60621544 | Making Ribosomes: Pre-rRNA Transcription and Processing |
| Q49650974 | Maturation of the 90S pre-ribosome requires Mrd1 dependent U3 snoRNA and 35S pre-rRNA structural rearrangements |
| Q39016666 | Mechanistic insight into eukaryotic 60S ribosomal subunit biogenesis by cryo-electron microscopy |
| Q52851541 | Metabolic Labeling in the Study of Mammalian Ribosomal RNA Synthesis. |
| Q27932767 | Multiple RNA interactions position Mrd1 at the site of the small subunit pseudoknot within the 90S pre-ribosome |
| Q48216882 | Multiplexed Sequence-Specific Capture of Chromatin and Mass Spectrometric Discovery of Associated Proteins |
| Q39340185 | Myb-binding protein 1a (Mybbp1a) regulates levels and processing of pre-ribosomal RNA. |
| Q27930575 | N-alpha-terminal acetylation of histone H4 regulates arginine methylation and ribosomal DNA silencing |
| Q60311371 | NETSeq reveals heterogeneous nucleotide incorporation by RNA polymerase I |
| Q41599068 | Nmd3 is a structural mimic of eIF5A, and activates the cpGTPase Lsg1 during 60S ribosome biogenesis |
| Q38309688 | Noncoding RNAs in eukaryotic ribosome biogenesis and function |
| Q92257313 | Nucleolar and Ribosomal DNA Structure under Stress: Yeast Lessons for Aging and Cancer |
| Q36620686 | Old drug, new target: ellipticines selectively inhibit RNA polymerase I transcription |
| Q38153167 | On the importance of cotranscriptional RNA structure formation |
| Q58552715 | PWP1 promotes nutrient-responsive expression of 5S ribosomal RNA |
| Q26771384 | Paradigms of ribosome synthesis: Lessons learned from ribosomal proteins |
| Q40603375 | Physical and functional interaction between the methyltransferase Bud23 and the essential DEAH-box RNA helicase Ecm16 |
| Q37490611 | Prefabrication of a ribosomal protein subcomplex essential for eukaryotic ribosome formation. |
| Q39071877 | Principles of 60S ribosomal subunit assembly emerging from recent studies in yeast. |
| Q26853246 | Processing of preribosomal RNA in Saccharomyces cerevisiae |
| Q34449160 | Profiling of ribose methylations in RNA by high-throughput sequencing |
| Q35562902 | Proteomic characterization of the nucleolar linker histone H1 interaction network |
| Q92303583 | Pseudouridine synthase 7 impacts Candida albicans rRNA processing and morphological plasticity |
| Q42209624 | Pwp2 mediates UTP-B assembly via two structurally independent domains |
| Q37806517 | RNA folding in living cells |
| Q35603101 | RNA polymerase I activity is regulated at multiple steps in the transcription cycle: recent insights into factors that influence transcription elongation. |
| Q91723212 | RNA-Seq employing a novel rRNA depletion strategy reveals a rich repertoire of snoRNAs in Euglena gracilis including box C/D and Ψ-guide RNAs targeting the modification of rRNA extremities |
| Q27935945 | Rcl1 protein, a novel nuclease for 18 S ribosomal RNA production |
| Q38238684 | Recent studies implicate the nucleolus as the major site of nuclear translation |
| Q35910435 | Regulation of ribosomal RNA production by RNA polymerase I: does elongation come first? |
| Q38793689 | Regulatory effects of cotranscriptional RNA structure formation and transitions |
| Q39950069 | Ribonucleoprotein particles of bacterial small non-coding RNA IsrA (IS61 or McaS) and its interaction with RNA polymerase core may link transcription to mRNA fate |
| Q52725615 | Ribosomal RNA Biogenesis and Its Response to Chilling Stress in Oryza sativa. |
| Q35567494 | Ribosomal RNA processing in Candida albicans. |
| Q27935901 | Ribosomal proteins L7 and L8 function in concert with six A₃ assembly factors to propagate assembly of domains I and II of 25S rRNA in yeast 60S ribosomal subunits |
| Q93360289 | Ribosome assembly coming into focus |
| Q37269766 | Ribosome biogenesis in the yeast Saccharomyces cerevisiae |
| Q27319572 | Ribosome synthesis and MAPK activity modulate ionizing radiation-induced germ cell apoptosis in Caenorhabditis elegans |
| Q27934183 | Role of Mex67-Mtr2 in the nuclear export of 40S pre-ribosomes |
| Q34509337 | Roles of Dim2 in ribosome assembly |
| Q27938937 | Rrp5 binding at multiple sites coordinates pre-rRNA processing and assembly |
| Q27929795 | Rrp5p, Noc1p and Noc2p form a protein module which is part of early large ribosomal subunit precursors in S. cerevisiae. |
| Q38463603 | SIRT7-dependent deacetylation of the U3-55k protein controls pre-rRNA processing |
| Q30300037 | Spt6 Is Essential for rRNA Synthesis by RNA Polymerase I. |
| Q36715627 | Stepwise and dynamic assembly of the earliest precursors of small ribosomal subunits in yeast |
| Q58563869 | Structural and interaction analysis of the Rrp5 C-terminal region |
| Q28550198 | The DEAD-box Protein Rok1 Orchestrates 40S and 60S Ribosome Assembly by Promoting the Release of Rrp5 from Pre-40S Ribosomes to Allow for 60S Maturation |
| Q35566924 | The DEAH-box helicase Dhr1 dissociates U3 from the pre-rRNA to promote formation of the central pseudoknot. |
| Q28550131 | The Dedicated Chaperone Acl4 Escorts Ribosomal Protein Rpl4 to Its Nuclear Pre-60S Assembly Site |
| Q57753222 | The Npa1p complex chaperones the assembly of the earliest eukaryotic large ribosomal subunit precursor |
| Q42598512 | The PIN domain endonuclease Utp24 cleaves pre-ribosomal RNA at two coupled sites in yeast and humans |
| Q41812618 | The association of late-acting snoRNPs with human pre-ribosomal complexes requires the RNA helicase DDX21 |
| Q37953892 | The box C/D and H/ACA snoRNPs: key players in the modification, processing and the dynamic folding of ribosomal RNA. |
| Q28822098 | The complete chemical structure of Saccharomyces cerevisiae rRNA: partial pseudouridylation of U2345 in 25S rRNA by snoRNA snR9 |
| Q36827121 | The cytoplasmic mRNA degradation factor Pat1 is required for rRNA processing |
| Q27931464 | The evolutionarily conserved protein Las1 is required for pre-rRNA processing at both ends of ITS2 |
| Q44959021 | The origins of the Redfield nitrogen-to-phosphorus ratio are in a homoeostatic protein-to-rRNA ratio |
| Q42018255 | The rRNA methyltransferase Bud23 shows functional interaction with components of the SSU processome and RNase MRP. |
| Q39076651 | The seven faces of SIRT7. |
| Q64063837 | The small and large ribosomal subunits depend on each other for stability and accumulation |
| Q34559435 | The small subunit processome in ribosome biogenesis—progress and prospects |
| Q42166075 | The spatial-functional coupling of box C/D and C'/D' RNPs is an evolutionarily conserved feature of the eukaryotic box C/D snoRNP nucleotide modification complex |
| Q27931478 | The transcription elongation factor Spt5 influences transcription by RNA polymerase I positively and negatively |
| Q41772509 | The ubiquitin ligase Rsp5 is required for ribosome stability in Saccharomyces cerevisiae. |
| Q36304122 | Tor1 and CK2 kinases control a switch between alternative ribosome biogenesis pathways in a growth-dependent manner |
| Q57803942 | Transcriptional and Epigenetic Regulation by the Mechanistic Target of Rapamycin Complex 1 Pathway |
| Q46904858 | Tuning the ribosome: The influence of rRNA modification on eukaryotic ribosome biogenesis and function. |
| Q28504712 | Two orthogonal cleavages separate subunit RNAs in mouse ribosome biogenesis |
| Q39596728 | Utp14 Recruits and Activates the RNA Helicase Dhr1 To Undock U3 snoRNA from the Preribosome |
| Q27935729 | Utp23p is required for dissociation of snR30 small nucleolar RNP from preribosomal particles. |
| Q39647144 | UtpA and UtpB chaperone nascent pre-ribosomal RNA and U3 snoRNA to initiate eukaryotic ribosome assembly |
| Q47238106 | Viewing pre-60S maturation at a minute's timescale. |
| Q34377948 | Visualization of the joining of ribosomal subunits reveals the presence of 80S ribosomes in the nucleus |
| Q27935269 | Yeast polypeptide exit tunnel ribosomal proteins L17, L35 and L37 are necessary to recruit late-assembling factors required for 27SB pre-rRNA processing. |
| Q35903191 | Zfrp8/PDCD2 Interacts with RpS2 Connecting Ribosome Maturation and Gene-Specific Translation |
| Q35113576 | atBRX1-1 and atBRX1-2 are involved in an alternative rRNA processing pathway in Arabidopsis thaliana |
| Q45317581 | rRNA modification in the nucleus and cytosol |
| Q29616318 | tRNA biology charges to the front |
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