SNF6/YHL025W Literature Guide 
Other names published for SNF6: YHL025W
SNF6 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Other Features
- Strains/Constructs
- Techniques and Reagents
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
SNF6 - Strains/Constructs (38)
| Reference | Other Genes Addressed |
|---|---|
| Risler JK, et al. (2012) Host co-factors of the retrovirus-like transposon Ty1. Mob DNA 3(1):12 |
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| Sanz AB, et al. (2012) Chromatin remodeling by the SWI/SNF complex is essential for transcription mediated by the yeast cell wall integrity MAPK pathway. Mol Biol Cell 23(14):2805-17 |
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| Yibmantasiri P, et al. (2012) Molecular basis for fungicidal action of neothyonidioside, a triterpene glycoside from the sea cucumber, Australostichopus mollis. Mol Biosyst 8(3):902-12 |
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| Lenstra TL, et al. (2011) The specificity and topology of chromatin interaction pathways in yeast. Mol Cell 42(4):536-49 |
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| Chen SH, et al. (2010) A proteome-wide analysis of kinase-substrate network in the DNA damage response. J Biol Chem 285(17):12803-12 |
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| Lee SK, et al. (2010) Activation of a Poised RNAPII-Dependent Promoter Requires Both SAGA and Mediator. Genetics 184(3):659-72 |
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| Mira NP, et al. (2010) Genome-wide identification of Saccharomyces cerevisiae genes required for tolerance to acetic acid. Microb Cell Fact 9(1):79 |
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| Ginsburg DS, et al. (2009) NuA4 Lysine Acetyltransferase Esa1 Is Targeted to Coding Regions and Stimulates Transcription Elongation with Gcn5. Mol Cell Biol 29(24):6473-87 |
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| Zhang L, et al. (2009) Assays for chromatin remodeling during nucleotide excision repair in Saccharomyces cerevisiae. Methods 48(1):19-22 |
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| de Graaf B, et al. (2009) Cellular pathways for DNA repair and damage tolerance of formaldehyde-induced DNA-protein crosslinks. DNA Repair (Amst) 8(10):1207-14 |
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| Fong CS, et al. (2008) Oxidant-induced cell-cycle delay in Saccharomyces cerevisiae: the involvement of the SWI6 transcription factor. FEMS Yeast Res 8(3):386-99 |
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| Hassan AH, et al. (2007) Selective recognition of acetylated histones by bromodomains in transcriptional co-activators. Biochem J 402(1):125-33 |
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| Koehler RN, et al. (2007) Activation of the ADE genes requires the chromatin remodeling complexes SAGA and SWI/SNF. Eukaryot Cell 6(8):1474-85 |
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| Sertil O, et al. (2007) Direct role for the Rpd3 complex in transcriptional induction of the anaerobic DAN/TIR genes in yeast. Mol Cell Biol 27(6):2037-47 |
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| Yang X, et al. (2007) Swi3p controls SWI/SNF assembly and ATP-dependent H2A-H2B displacement. Nat Struct Mol Biol 14(6):540-7 |
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| Gong F, et al. (2006) Rad4-Rad23 interaction with SWI/SNF links ATP-dependent chromatin remodeling with nucleotide excision repair. Nat Struct Mol Biol 13(10):902-7 |
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| Sambade M, et al. (2005) A genomic screen for yeast vacuolar membrane ATPase mutants. Genetics 170(4):1539-51 |
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| Begley TJ, et al. (2004) Hot spots for modulating toxicity identified by genomic phenotyping and localization mapping. Mol Cell 16(1):117-25 |
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| Oki M, et al. (2004) Barrier proteins remodel and modify chromatin to restrict silenced domains. Mol Cell Biol 24(5):1956-67 |
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| Steger DJ, et al. (2003) Regulation of chromatin remodeling by inositol polyphosphates. Science 299(5603):114-6 |
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| Desmoucelles C, et al. (2002) Screening the yeast "disruptome" for mutants affecting resistance to the immunosuppressive drug, mycophenolic acid. J Biol Chem 277(30):27036-44 |
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| Kitamoto HK, et al. (2002) Defects in yeast RNA polymerase II transcription elicit hypersensitivity to G1 arrest induced by Kluyveromyces lactis zymocin. Mol Genet Genomics 268(1):49-55 |
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| Moreira JM and Holmberg S (1998) Nucleosome structure of the yeast CHA1 promoter: analysis of activation-dependent chromatin remodeling of an RNA-polymerase-II-transcribed gene in TBP and RNA pol II mutants defective in vivo in response to acidic activators. EMBO J 17(20):6028-38 |
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| Cairns BR, et al. (1996) Essential role of Swp73p in the function of yeast Swi/Snf complex. Genes Dev 10(17):2131-44 |
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| Denis CL, et al. (1994) The yeast CCR4 protein is neither regulated by nor associated with the SPT6 and SPT10 proteins and forms a functionally distinct complex from that of the SNF/SWI transcription factors. Genetics 138(4):1005-13 |
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| Peterson CL, et al. (1994) Five SWI/SNF gene products are components of a large multisubunit complex required for transcriptional enhancement. Proc Natl Acad Sci U S A 91(8):2905-8 |
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| Hirschhorn JN, et al. (1992) Evidence that SNF2/SWI2 and SNF5 activate transcription in yeast by altering chromatin structure. Genes Dev 6(12A):2288-98 |
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| Laurent BC and Carlson M (1992) Yeast SNF2/SWI2, SNF5, and SNF6 proteins function coordinately with the gene-specific transcriptional activators GAL4 and Bicoid. Genes Dev 6(9):1707-15 |
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| Peterson CL and Herskowitz I (1992) Characterization of the yeast SWI1, SWI2, and SWI3 genes, which encode a global activator of transcription. Cell 68(3):573-83 |
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| Yoshinaga SK, et al. (1992) Roles of SWI1, SWI2, and SWI3 proteins for transcriptional enhancement by steroid receptors. Science 258(5088):1598-604 |
