RPT5/YOR117W Literature Guide 
Other names published for RPT5: YTA1, proteasome regulatory particle base subunit RPT5, YOR117W
RPT5 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
RPT5 - Additional Literature (55)
| Reference | Other Genes Addressed |
|---|---|
| Ehlinger A, et al. (2013) Conformational dynamics of the rpt6 ATPase in proteasome assembly and rpn14 binding. Structure 21(5):753-65 |
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| Pietroni P, et al. (2013) The proteasome cap RPT5/Rpt5p subunit prevents aggregation of unfolded ricin A chain. Biochem J () |
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| Beck F, et al. (2012) Near-atomic resolution structural model of the yeast 26S proteasome. Proc Natl Acad Sci U S A 109(37):14870-5 |
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| Enenkel C (2012) Using Native Gel Electrophoresis and Phosphofluoroimaging to Analyze GFP-Tagged Proteasomes. Methods Mol Biol 832():339-48 |
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| Ha SW, et al. (2012) The N-terminal domain of Rpn4 serves as a portable ubiquitin-independent degron and is recognized by specific 19S RP subunits. Biochem Biophys Res Commun 419(2):226-31 |
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| Hodgins-Davis A, et al. (2012) Abundant gene-by-environment interactions in gene expression reaction norms to copper within Saccharomyces cerevisiae. Genome Biol Evol 4(11):1061-79 |
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| Jacobson T, et al. (2012) Arsenite interferes with protein folding and triggers formation of protein aggregates in yeast. J Cell Sci 125(Pt 21):5073-83 |
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| Kao A, et al. (2012) Mapping the structural topology of the yeast 19S proteasomal regulatory particle using chemical cross-linking and probabilistic modeling. Mol Cell Proteomics 11(12):1566-77 |
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| Kimura A, et al. (2012) N-myristoylation of the Rpt2 subunit regulates intracellular localization of the yeast 26S proteasome. Biochemistry 51(44):8856-66 |
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| Schreiber TB, et al. (2012) Global analysis of phosphoproteome regulation by the Ser/Thr phosphatase Ppt1 in Saccharomyces cerevisiae. J Proteome Res 11(4):2397-408 |
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| Takagi K, et al. (2012) Structural basis for specific recognition of Rpt1p, an ATPase subunit of 26 S proteasome, by proteasome-dedicated chaperone Hsm3p. J Biol Chem 287(15):12172-82 |
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| Bonzanni N, et al. (2011) The role of proteosome-mediated proteolysis in modulating potentially harmful transcription factor activity in Saccharomyces cerevisiae. Bioinformatics 27(13):i283-i287 |
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| Dange T, et al. (2011) Blm10 protein promotes proteasomal substrate turnover by an active gating mechanism. J Biol Chem 286(50):42830-9 |
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| Gomez TA, et al. (2011) Identification of a functional docking site in the Rpn1 LRR domain for the UBA-UBL domain protein Ddi1. BMC Biol 9(1):33 |
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| Kraut DA and Matouschek A (2011) Proteasomal degradation from internal sites favors partial proteolysis via remote domain stabilization. ACS Chem Biol 6(10):1087-95 |
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| Park S, et al. (2011) Structural defects in the regulatory particle-core particle interface of the proteasome induce a novel proteasome stress response. J Biol Chem 286(42):36652-66 |
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| Piggott N, et al. (2011) Genome-wide Fitness Profiles Reveal a Requirement for Autophagy During Yeast Fermentation. G3 (Bethesda) 1(5):353-67 |
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| Sakata E, et al. (2011) The catalytic activity of Ubp6 enhances maturation of the proteasomal regulatory particle. Mol Cell 42(5):637-49 |
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| Kikuchi J, et al. (2010) Co- and post-translational modifications of the 26S proteasome in yeast. Proteomics 10(15):2769-79 |
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| Tomko RJ Jr, et al. (2010) Heterohexameric ring arrangement of the eukaryotic proteasomal ATPases: implications for proteasome structure and assembly. Mol Cell 38(3):393-403 |
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| Voloshin O, et al. (2010) Tubulin chaperone E binds microtubules and proteasomes and protects against misfolded protein stress. Cell Mol Life Sci 67(12):2025-38 |
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| Wang X, et al. (2010) Regulation of the 26S Proteasome Complex During Oxidative Stress. Sci Signal 3(151):ra88 |
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| Annan RB, et al. (2009) A biochemical genomics screen for substrates of Ste20p kinase enables the in silico prediction of novel substrates. PLoS One 4(12):e8279 |
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| Bech-Otschir D, et al. (2009) Polyubiquitin substrates allosterically activate their own degradation by the 26S proteasome. Nat Struct Mol Biol 16(2):219-25 |
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| Funakoshi M, et al. (2009) Multiple assembly chaperones govern biogenesis of the proteasome regulatory particle base. Cell 137(5):887-99 |
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| Le Tallec B, et al. (2009) Hsm3/S5b participates in the assembly pathway of the 19S regulatory particle of the proteasome. Mol Cell 33(3):389-99 |
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| Lin YY, et al. (2009) Protein acetylation microarray reveals that NuA4 controls key metabolic target regulating gluconeogenesis. Cell 136(6):1073-84 |
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| Roelofs J, et al. (2009) Chaperone-mediated pathway of proteasome regulatory particle assembly. Nature 459(7248):861-5 |
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| Saeki Y, et al. (2009) Multiple proteasome-interacting proteins assist the assembly of the yeast 19S regulatory particle. Cell 137(5):900-13 |
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| Ungar L, et al. (2009) A genome-wide screen for essential yeast genes that affect telomere length maintenance. Nucleic Acids Res 37(12):3840-9 |
