RPB2/YOR151C Literature Guide 
Other names published for RPB2: RPB150, RPO22, SIT2, SOH2, B150, YOR151C
RPB2 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
RPB2 - Protein-protein Interactions (49)
| Reference | Other Genes Addressed |
|---|---|
| Cai G, et al. (2012) Interaction of the mediator head module with RNA polymerase II. Structure 20(5):899-910 |
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| Luo J, et al. (2012) An integrated chemical cross-linking and mass spectrometry approach to study protein complex architecture and function. Mol Cell Proteomics 11(2):M111.008318 |
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| Smolle M, et al. (2012) Chromatin remodelers Isw1 and Chd1 maintain chromatin structure during transcription by preventing histone exchange. Nat Struct Mol Biol 19(9):884-92 |
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| Zhang DW, et al. (2012) Ssu72 phosphatase-dependent erasure of phospho-Ser7 marks on the RNA polymerase II C-terminal domain is essential for viability and transcription termination. J Biol Chem 287(11):8541-51 |
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| Bintu L, et al. (2011) The elongation rate of RNA polymerase determines the fate of transcribed nucleosomes.LID - 10.1038/nsmb.2164 [doi] Nat Struct Mol Biol () |
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| Kurat CF, et al. (2011) Restriction of histone gene transcription to S phase by phosphorylation of a chromatin boundary protein. Genes Dev 25(23):2489-501 |
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| Mosley AL, et al. (2011) Highly reproducible label free quantitative proteomic analysis of RNA polymerase complexes. Mol Cell Proteomics 10(2):M110.000687 |
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| Chen ZA, et al. (2010) Architecture of the RNA polymerase II-TFIIF complex revealed by cross-linking and mass spectrometry. EMBO J 29(4):717-26 |
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| Chin CH, et al. (2010) A hub-attachment based method to detect functional modules from confidence-scored protein interactions and expression profiles. BMC Bioinformatics 11 Suppl 1():S25 |
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| Eichner J, et al. (2010) Position of the general transcription factor TFIIF within the RNA polymerase II transcription preinitiation complex. EMBO J 29(4):706-16 |
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| Fernandez-Tornero C, et al. (2010) Conformational flexibility of RNA polymerase III during transcriptional elongation. EMBO J 29(22):3762-3772 |
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| Pujari V, et al. (2010) The Transcription Factor Spn1 Regulates Gene Expression via a Highly Conserved Novel Structural Motif. J Mol Biol 404(1):1-15 |
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| Suh MH, et al. (2010) A dual interface determines the recognition of RNA polymerase II by RNA capping enzyme. J Biol Chem 285(44):34027-38 |
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| Kostrewa D, et al. (2009) RNA polymerase II-TFIIB structure and mechanism of transcription initiation. Nature 462(7271):323-30 |
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| Mosley AL, et al. (2009) Rtr1 is a CTD phosphatase that regulates RNA polymerase II during the transition from serine 5 to serine 2 phosphorylation. Mol Cell 34(2):168-78 |
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| Baranes-Bacher K, et al. (2008) New interacting partners of the F-box protein Ufo1 of yeast. Yeast 25(10):733-43 |
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| Kvint K, et al. (2008) Reversal of RNA Polymerase II Ubiquitylation by the Ubiquitin Protease Ubp3. Mol Cell 30(4):498-506 |
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| Sampath V, et al. (2008) Unstructured N Terminus of the RNA Polymerase II Subunit Rpb4 Contributes to the Interaction of Rpb4{middle dot}Rpb7 Subcomplex with the Core RNA Polymerase II of Saccharomyces cerevisiae. J Biol Chem 283(7):3923-31 |
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| Zhang L, et al. (2008) Spn1 regulates the recruitment of Spt6 and the Swi/Snf complex during transcriptional activation by RNA polymerase II. Mol Cell Biol 28(4):1393-403 |
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| Betel D, et al. (2007) Structure-templated predictions of novel protein interactions from sequence information. PLoS Comput Biol 3(9):1783-9 |
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| Chen HT, et al. (2007) The positions of TFIIF and TFIIE in the RNA polymerase II transcription preinitiation complex. Nat Struct Mol Biol 14(8):696-703 |
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| Max T, et al. (2007) Hyperphosphorylation of the C-terminal repeat domain of RNA polymerase II facilitates dissociation of its complex with mediator. J Biol Chem 282(19):14113-20 |
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| Tardiff DF, et al. (2007) Protein characterization of Saccharomyces cerevisiae RNA polymerase II after in vivo cross-linking. Proc Natl Acad Sci U S A 104(50):19948-53 |
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| Krogan NJ, et al. (2006) Global landscape of protein complexes in the yeast Saccharomyces cerevisiae. Nature 440(7084):637-43 |
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| Wu X, et al. (2006) Prediction of yeast protein-protein interaction network: insights from the Gene Ontology and annotations. Nucleic Acids Res 34(7):2137-50 |
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| Gingras AC, et al. (2005) A novel, evolutionarily conserved protein phosphatase complex involved in cisplatin sensitivity. Mol Cell Proteomics 4(11):1725-40 |
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| Suh MH, et al. (2005) An agarose-acrylamide composite native gel system suitable for separating ultra-large protein complexes. Anal Biochem 343(1):166-75 |
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| Suh MH, et al. (2005) Fcp1 directly recognizes the C-terminal domain (CTD) and interacts with a site on RNA polymerase II distinct from the CTD. Proc Natl Acad Sci U S A 102(48):17314-9 |
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| Kamenski T, et al. (2004) Structure and mechanism of RNA polymerase II CTD phosphatases. Mol Cell 15(3):399-407 |
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| Kettenberger H, et al. (2004) Complete RNA polymerase II elongation complex structure and its interactions with NTP and TFIIS. Mol Cell 16(6):955-65 |
