| scholarly article | Q13442814 |
| P2093 | author name string | M Nomura | |
| J Dodd | |||
| Y Nogi | |||
| C Carles | |||
| R Yano | |||
| P2860 | cites work | Nucleotide sequences of STE2 and STE3, cell type-specific sterile genes from Saccharomyces cerevisiae | Q24555795 |
| Mutations in the three largest subunits of yeast RNA polymerase II that affect enzyme assembly | Q24596991 | ||
| DNA sequence analysis with a modified bacteriophage T7 DNA polymerase | Q24605322 | ||
| Transformation of intact yeast cells treated with alkali cations | Q24672708 | ||
| A comprehensive set of sequence analysis programs for the VAX | Q26778432 | ||
| A system of shuttle vectors and yeast host strains designed for efficient manipulation of DNA in Saccharomyces cerevisiae | Q27860636 | ||
| Unidirectional digestion with exonuclease III creates targeted breakpoints for DNA sequencing | Q27860941 | ||
| An approach for isolation of mutants defective in 35S ribosomal RNA synthesis in Saccharomyces cerevisiae | Q27930691 | ||
| Isolation and characterization of temperature-sensitive mutations in RPA190, the gene encoding the largest subunit of RNA polymerase I from Saccharomyces cerevisiae | Q27931419 | ||
| Subunits shared by eukaryotic nuclear RNA polymerases | Q27934279 | ||
| RNA polymerase II subunit RPB3 is an essential component of the mRNA transcription apparatus | Q27936059 | ||
| Synthesis of large rRNAs by RNA polymerase II in mutants of Saccharomyces cerevisiae defective in RNA polymerase I | Q27936714 | ||
| Transformation in yeast: development of a hybrid cloning vector and isolation of the CAN1 gene | Q29547924 | ||
| High-expression vectors with multiple cloning sites for construction of trpE fusion genes: pATH vectors | Q29620761 | ||
| Physical map of the Saccharomyces cerevisiae genome at 110-kilobase resolution | Q33957714 | ||
| A conjugation-specific gene (cnjC) from Tetrahymena encodes a protein homologous to yeast RNA polymerase subunits (RPB3, RPC40) and similar to a portion of the prokaryotic RNA polymerase alpha subunit (rpoA) | Q35841099 | ||
| Suppressor analysis of temperature-sensitive RNA polymerase I mutations in Saccharomyces cerevisiae: suppression of mutations in a zinc-binding motif by transposed mutant genes | Q36683847 | ||
| Suppressor analysis of temperature-sensitive mutations of the largest subunit of RNA polymerase I in Saccharomyces cerevisiae: a suppressor gene encodes the second-largest subunit of RNA polymerase I | Q36683876 | ||
| Conditional expression of RPA190, the gene encoding the largest subunit of yeast RNA polymerase I: effects of decreased rRNA synthesis on ribosomal protein synthesis | Q36708181 | ||
| News from the nucleolus: rRNA gene expression | Q37200698 | ||
| rRNA synthesis in the nucleolus | Q37793903 | ||
| Zinc-binding subunits of yeast RNA polymerases. | Q38332298 | ||
| Genetics of bacterial RNA polymerases | Q39589239 | ||
| Eukaryotic RNA polymerases | Q39824498 | ||
| Identification of two different RNase H activities associated with yeast RNA polymerase A | Q41119774 | ||
| RPC10 encodes a new mini subunit shared by yeast nuclear RNA polymerases | Q42611930 | ||
| RPC19, the gene for a subunit common to yeast RNA polymerases A (I) and C (III). | Q42622667 | ||
| Yeast RNA polymerase II subunit RPB9 is essential for growth at temperature extremes. | Q48206014 | ||
| RPA190, the gene coding for the largest subunit of yeast RNA polymerase A. | Q48328866 | ||
| RPC40, a unique gene for a subunit shared between yeast RNA polymerases A and C. | Q48349006 | ||
| Isolation, structure, and general properties of yeast ribonucleic acid polymerase A (or I) | Q69357118 | ||
| Natural variation in yeast RNA polymerase A. Formation of a mosaic RNA polymerase A in a meiotic segregant from an interspecific hybrid | Q70225798 | ||
| Spot-immunodetection of conserved determinants in eukaryotic RNA polymerases. Study with antibodies to yeast RNA polymerases subunits | Q72659618 | ||
| P433 | issue | 1 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | Saccharomyces cerevisiae | Q719725 |
| RNA recognition motif domain | Q24768845 | ||
| DNA-directed RNA polymerase I core subunit RPA12 YJR063W | Q27551032 | ||
| P304 | page(s) | 114-22 | |
| P577 | publication date | 1993-01-01 | |
| P1433 | published in | Molecular and Cellular Biology | Q3319478 |
| P1476 | title | Gene RRN4 in Saccharomyces cerevisiae encodes the A12.2 subunit of RNA polymerase I and is essential only at high temperatures | |
| P478 | volume | 13 |
| Q42049785 | 18S rRNA processing requires base pairings of snR30 H/ACA snoRNA to eukaryote-specific 18S sequences |
| Q27936759 | A novel 66-kilodalton protein complexes with Rrn6, Rrn7, and TATA-binding protein to promote polymerase I transcription initiation in Saccharomyces cerevisiae |
| Q27930981 | A protein interaction map of the LSU processome |
| 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. |
| Q27930522 | A34.5, a nonessential component of yeast RNA polymerase I, cooperates with subunit A14 and DNA topoisomerase I to produce a functional rRNA synthesis machine |
| Q27933625 | Actively transcribed rRNA genes in S. cerevisiae are organized in a specialized chromatin associated with the high-mobility group protein Hmo1 and are largely devoid of histone molecules. |
| Q35874282 | Alternate pathways for processing in the internal transcribed spacer 1 in pre-rRNA of Saccharomyces cerevisiae |
| Q27935102 | Alternative chromatin structures of the 35S rRNA genes in Saccharomyces cerevisiae provide a molecular basis for the selective recruitment of RNA polymerases I and II. |
| Q41338625 | An RNA conformational switch regulates pre-18S rRNA cleavage. |
| Q34977453 | Ancient origin, functional conservation and fast evolution of DNA-dependent RNA polymerase III |
| Q36676485 | Apoptotic signals induce specific degradation of ribosomal RNA in yeast |
| Q40789290 | Base pairing between U3 and the pre-ribosomal RNA is required for 18S rRNA synthesis. |
| Q39447158 | Base pairing between U3 small nucleolar RNA and the 5' end of 18S rRNA is required for pre-rRNA processing |
| Q27937330 | C25, an essential RNA polymerase III subunit related to the RNA polymerase II subunit RPB7 |
| Q83345764 | Chapter 12. Analysis of nonfunctional ribosomal RNA decay in Saccharomyces cerevisiae |
| Q42129886 | Compositional and structural analysis of selected chromosomal domains from Saccharomyces cerevisiae |
| Q53860838 | Construction of a set of Saccharomyces cerevisiae vectors designed for recombinational cloning. |
| Q30416771 | Divergent contributions of conserved active site residues to transcription by eukaryotic RNA polymerases I and II |
| Q34364517 | Dynamic conformational model for the role of ITS2 in pre-rRNA processing in yeast |
| Q42434608 | Eukaryote-specific rRNA expansion segments function in ribosome biogenesis |
| Q39586043 | Functional alpha-fragment of beta-galactosidase can be expressed from the mobile group I intron PpLSU3 embedded in yeast pre-ribosomal RNA derived from the chromosomal rDNA locus |
| Q34747109 | Functional divergence of eukaryotic RNA polymerases: unique properties of RNA polymerase I suit its cellular role |
| Q27929969 | Gene RPA43 in Saccharomyces cerevisiae Encodes an Essential Subunit of RNA Polymerase I |
| Q92342802 | Genetic analyses led to the discovery of a super-active mutant of the RNA polymerase I |
| Q34635513 | Genetic evidence for selective degradation of RNA polymerase subunits by the 20S proteasome in Saccharomyces cerevisiae |
| Q27936987 | Hmo1, an HMG-box protein, belongs to the yeast ribosomal DNA transcription system |
| Q34090047 | Localization of the yeast RNA polymerase I-specific subunits |
| Q37592638 | Members of the SAGA and Mediator complexes are partners of the transcription elongation factor TFIIS. |
| Q31101588 | Microarray data analyses of yeast RNA Pol I subunit RPA12 deletion strain |
| Q27932039 | Mrd1p binds to pre-rRNA early during transcription independent of U3 snoRNA and is required for compaction of the pre-rRNA into small subunit processomes |
| Q40232644 | Mutational analysis of an essential binding site for the U3 snoRNA in the 5' external transcribed spacer of yeast pre-rRNA. |
| Q40522193 | Mutational analysis of an essential binding site for the U3 snoRNA in the 5' external transcribed spacer of yeast pre-rRNA. |
| Q36255523 | Mutational analysis of the structure and localization of the nucleolus in the yeast Saccharomyces cerevisiae |
| Q41043611 | Processing of eukaryotic pre-rRNA: the role of the transcribed spacers |
| Q93177178 | Proteins and RNA sequences required for the transition of the t-Utp complex into the SSU processome |
| Q89721915 | RNA polymerase I (Pol I) passage through nucleosomes depends on Pol I subunits binding its lobe structure |
| Q37590100 | RNA polymerase I remains intact without subunit exchange through multiple rounds of transcription in Saccharomyces cerevisiae |
| Q52540398 | RNA polymerase II subunit Rpb9 regulates transcription elongation in vivo. |
| Q27937844 | RRN11 encodes the third subunit of the complex containing Rrn6p and Rrn7p that is essential for the initiation of rDNA transcription by yeast RNA polymerase I. |
| Q27936787 | RRN3 gene of Saccharomyces cerevisiae encodes an essential RNA polymerase I transcription factor which interacts with the polymerase independently of DNA template. |
| Q27935304 | Reconstitution of yeast RNA polymerase I transcription in vitro from purified components. TATA-binding protein is not required for basal transcription |
| Q33648731 | Ribosomal DNA status inferred from DNA cloud assays and mass spectrometry identification of agarose-squeezed proteins interacting with chromatin (ASPIC-MS). |
| Q39981781 | Role of second-largest RNA polymerase I subunit Zn-binding domain in enzyme assembly |
| Q42673162 | Rpa12p, a conserved RNA polymerase I subunit with two functional domains |
| Q36563317 | Rpo26p, a subunit common to yeast RNA polymerases, is essential for the assembly of RNA polymerases I and II and for the stability of the largest subunits of these enzymes |
| Q43238064 | Saccharomyces cerevisiae Sof1p associates with 35S Pre-rRNA independent from U3 snoRNA and Rrp5p |
| Q39963552 | Self-splicing of a group I intron reveals partitioning of native and misfolded RNA populations in yeast |
| Q45998087 | Silencing in yeast rDNA chromatin: reciprocal relationship in gene expression between RNA polymerase I and II. |
| Q37142530 | Silencing near tRNA genes requires nucleolar localization. |
| Q24310655 | Six human RNA polymerase subunits functionally substitute for their yeast counterparts |
| Q41755105 | Structural basis for the species-specific activity of TFIIS. |
| Q35562078 | Subunit compositions of Arabidopsis RNA polymerases I and III reveal Pol I- and Pol III-specific forms of the AC40 subunit and alternative forms of the C53 subunit. |
| Q36071800 | Synthesis of functional eukaryotic ribosomal RNAs in trans: development of a novel in vivo rDNA system for dissecting ribosome biogenesis |
| Q41871776 | The 5' end of the 18S rRNA can be positioned from within the mature rRNA. |
| Q24595513 | The 5' end of yeast 5.8S rRNA is generated by exonucleases from an upstream cleavage site |
| Q34378791 | The A14-A43 heterodimer subunit in yeast RNA pol I and their relationship to Rpb4-Rpb7 pol II subunits |
| Q22008590 | The RNA cleavage activity of RNA polymerase III is mediated by an essential TFIIS-like subunit and is important for transcription termination |
| Q27933481 | The RNA polymerase I subunit Rpa12p interacts with the stress-responsive transcription factor Msn4p to regulate lipid metabolism in budding yeast |
| Q27940159 | The Rpb9 subunit of RNA polymerase II binds transcription factor TFIIE and interferes with the SAGA and elongator histone acetyltransferases |
| Q47621887 | The SSU processome interactome in Saccharomyces cerevisiae reveals novel protein subcomplexes |
| Q27940187 | The association of three subunits with yeast RNA polymerase is stabilized by A14. |
| Q28775998 | The sequence, and its evolutionary implications, of a Thermococcus celer protein associated with transcription |
| Q34361673 | The structure of the ITS2-proximal stem is required for pre-rRNA processing in yeast |
| Q27930400 | Transcription elongation through DNA arrest sites. A multistep process involving both RNA polymerase II subunit RPB9 and TFIIS. |
| Q34058138 | Transcription in archaea: similarity to that in eucarya |
| Q27938086 | Transcriptional termination by RNA polymerase I requires the small subunit Rpa12p. |
| Q40789596 | Two distinct recognition signals define the site of endonucleolytic cleavage at the 5′-end of yeast 18S rRNA |
| Q40404802 | U3 snoRNP and Rrp5p associate independently with Saccharomyces cerevisiae 35S pre-rRNA, but Rrp5p is essential for association of Rok1p |
| Q27936521 | Yeast N-terminal amidase. A new enzyme and component of the N-end rule pathway |
| Q57412403 | Yeast RNA Polymerase II Subunit RPB9 |
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