SGF73/YGL066W Literature Guide 
Other names published for SGF73: SCA7, YGL066W
SGF73 LITERATURE TOPICS
- Curated Literature
- Additional Literature
- All Curated References
- Primary Literature
- Reviews
- Genetics/Cell Biology
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
SGF73 - All Curated References (107)
| Reference | Other Genes Addressed |
|---|---|
| Lu JY, et al. (2013) Using functional proteome microarrays to study protein lysine acetylation. Methods Mol Biol 981():151-65 |
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| Nino CA, et al. (2013) mRNA Nuclear Export in Yeast. Chem Rev () |
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| Shi L and Tu BP (2013) Acetyl-CoA induces transcription of the key G1 cyclin CLN3 to promote entry into the cell division cycle in Saccharomyces cerevisiae. Proc Natl Acad Sci U S A 110(18):7318-23 |
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| Ansari SA and Morse RH (2012) Selective role of Mediator tail module in the transcription of highly regulated genes in yeast. Transcription 3(3):110-4 |
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| Galan A and Rodriguez-Navarro S (2012) Sus1/ENY2: a multitasking protein in eukaryotic gene expression. Crit Rev Biochem Mol Biol 47(6):556-68 |
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| Garcia-Oliver E, et al. (2012) mRNA export and gene expression: the SAGA-TREX-2 connection. Biochim Biophys Acta 1819(6):555-65 |
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| Ghosh Dastidar R, et al. (2012) The nuclear localization of SWI/SNF proteins is subjected to oxygen regulation. Cell Biosci 2(1):30 |
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| Henriksen P, et al. (2012) Proteome-wide analysis of lysine acetylation suggests its broad regulatory scope in Saccharomyces cerevisiae. Mol Cell Proteomics 11(11):1510-22 |
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| Jazwinski SM (2012) The Retrograde ResponseRetrograde Response and Other Pathways of Interorganelle CommunicationInterorganelle Communication in Yeast Replicative Aging. Subcell Biochem 57():79-100 |
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| Miller C, et al. (2012) Mediator phosphorylation prevents stress response transcription during non-stress conditions. J Biol Chem 287(53):44017-26 |
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| Samara NL, et al. (2012) A role for intersubunit interactions in maintaining SAGA deubiquitinating module structure and activity. Structure 20(8):1414-24 |
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| Sikorski TW, et al. (2012) Proteomic analysis demonstrates activator- and chromatin-specific recruitment to promoters. J Biol Chem 287(42):35397-408 |
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| Spedale G, et al. (2012) ATAC-king the complexity of SAGA during evolution. Genes Dev 26(6):527-41 |
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| Spedale G, et al. (2012) Tight cooperation between Mot1p and NC2beta in regulating genome-wide transcription, repression of transcription following heat shock induction and genetic interaction with SAGA. Nucleic Acids Res 40(3):996-1008 |
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| Addinall SG, et al. (2011) Quantitative Fitness Analysis Shows That NMD Proteins and Many Other Protein Complexes Suppress or Enhance Distinct Telomere Cap Defects. PLoS Genet 7(4):e1001362 |
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| Bhaumik SR (2011) Distinct regulatory mechanisms of eukaryotic transcriptional activation by SAGA and TFIID. Biochim Biophys Acta 1809(2):97-108 |
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| Cai L, et al. (2011) Acetyl-CoA induces cell growth and proliferation by promoting the acetylation of histones at growth genes. Mol Cell 42(4):426-37 |
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| Chang HY, et al. (2011) Genome-wide analysis to identify pathways affecting telomere-initiated senescence in budding yeast. G3 (Bethesda) 1(3):197-208 |
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| Chittuluru JR, et al. (2011) Structure and nucleosome interaction of the yeast NuA4 and Piccolo-NuA4 histone acetyltransferase complexes.LID - 10.1038/nsmb.2128 [doi] Nat Struct Mol Biol () |
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| Diebold ML, et al. (2011) Deciphering correct strategies for multiprotein complex assembly by co-expression: application to complexes as large as the histone octamer. J Struct Biol 175(2):178-88 |
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| Hahn S and Young ET (2011) Transcriptional Regulation in Saccharomyces cerevisiae: Transcription Factor Regulation and Function, Mechanisms of Initiation, and Roles of Activators and Coactivators. Genetics 189(3):705-36 |
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| Hickman MJ, et al. (2011) The Hog1 mitogen-activated protein kinase mediates a hypoxic response in Saccharomyces cerevisiae. Genetics 188(2):325-38 |
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| Lee KK, et al. (2011) Combinatorial depletion analysis to assemble the network architecture of the SAGA and ADA chromatin remodeling complexes. Mol Syst Biol 7():503 |
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| Manogaran AL, et al. (2011) Prion formation and polyglutamine aggregation are controlled by two classes of genes. PLoS Genet 7(5):e1001386 |
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| Niederacher G, et al. (2011) Interplay of dynamic transcription and chromatin remodeling: lessons from yeast. Int J Mol Sci 12(8):4758-69 |
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| Tous C, et al. (2011) A novel assay identifies transcript elongation roles for the Nup84 complex and RNA processing factors. EMBO J 30(10):1953-64 |
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| Tutucci E and Stutz F (2011) Keeping mRNPs in check during assembly and nuclear export. Nat Rev Mol Cell Biol 12(6):377-84 |
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| Venters BJ, et al. (2011) A comprehensive genomic binding map of gene and chromatin regulatory proteins in Saccharomyces. Mol Cell 41(4):480-92 |
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| Villa-Garcia MJ, et al. (2011) Genome-wide screen for inositol auxotrophy in Saccharomyces cerevisiae implicates lipid metabolism in stress response signaling. Mol Genet Genomics 285(2):125-49 |
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| Wilson MA, et al. (2011) Ubp8 and SAGA regulate Snf1 AMP kinase activity. Mol Cell Biol 31(15):3126-35 |
