ISW2/YOR304W Literature Guide 
Other names published for ISW2: YOR304W
ISW2 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
- Additional Information
ISW2 - Additional Literature (59)
| Reference | Other Genes Addressed |
|---|---|
| Deindl S, et al. (2013) ISWI remodelers slide nucleosomes with coordinated multi-base-pair entry steps and single-base-pair exit steps. Cell 152(3):442-52 |
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| Frey AG and Eide DJ (2012) Zinc-responsive coactivator recruitment by the yeast Zap1 transcription factor. Microbiologyopen 1(2):105-14 |
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| Gossett AJ and Lieb JD (2012) In Vivo Effects of Histone H3 Depletion on Nucleosome Occupancy and Position in Saccharomyces cerevisiae. PLoS Genet 8(6):e1002771 |
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| Hota SK and Bartholomew B (2012) Approaches for studying nucleosome movement by ATP-dependent chromatin remodeling complexes. Methods Mol Biol 809():367-80 |
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| Krajewski WA and Vassiliev OL (2012) Remodeling of nucleosome-dimer particles with yIsw2 promotes their association with ALL-1 SET domain in vitro. Biochemistry 51(21):4354-63 |
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| Lafon A, et al. (2012) Functional Antagonism between Sas3 and Gcn5 Acetyltransferases and ISWI Chromatin Remodelers. PLoS Genet 8(10):e1002994 |
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| Pointner J, et al. (2012) CHD1 remodelers regulate nucleosome spacing in vitro and align nucleosomal arrays over gene coding regions in S. pombe. EMBO J 31(23):4388-403 |
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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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| 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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| Verdaasdonk JS, et al. (2012) Tension-dependent nucleosome remodeling at the pericentromere in yeast. Mol Biol Cell 23(13):2560-70 |
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| Di Segni G, et al. (2011) Yeast pheromone receptor genes STE2 and STE3 are differently regulated at the transcription and polyadenylation level. Proc Natl Acad Sci U S A 108(41):17082-6 |
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| Gkikopoulos T, et al. (2011) A role for Snf2-related nucleosome-spacing enzymes in genome-wide nucleosome organization. Science 333(6050):1758-60 |
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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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| Krajewski WA and Reese JC (2010) SET domains of histone methyltransferases recognize ISWI-remodeled nucleosomal species. Mol Cell Biol 30(3):552-64 |
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| Louw C, et al. (2010) Epigenetic regulation of PGU1 transcription in Saccharomyces cerevisiae. FEMS Yeast Res 10(2):158-67 |
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| Louw C, et al. (2010) Regulation of endo-polygalacturonase activity in Saccharomyces cerevisiae. FEMS Yeast Res 10(1):44-57 |
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| On T, et al. (2010) The evolutionary landscape of the chromatin modification machinery reveals lineage specific gains, expansions, and losses. Proteins 78(9):2075-89 |
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| Quan TK and Hartzog GA (2010) Histone H3K4 and K36 Methylation, Chd1 and Rpd3S Oppose the Functions of Saccharomyces cerevisiae Spt4-Spt5 in Transcription. Genetics 184(2):321-34 |
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| Tirosh I, et al. (2010) Widespread remodeling of mid-coding sequence nucleosomes by Isw1. Genome Biol 11(5):R49 |
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| Zheng J, et al. (2010) Epistatic relationships reveal the functional organization of yeast transcription factors. Mol Syst Biol 6():420 |
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| Dai Z, et al. (2009) Genome-wide analysis of interactions between ATP-dependent chromatin remodeling and histone modifications. BMC Genomics 10:304 |
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| Dhillon N, et al. (2009) DNA polymerase epsilon, acetylases and remodellers cooperate to form a specialized chromatin structure at a tRNA insulator. EMBO J 28(17):2583-600 |
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| Gangaraju VK, et al. (2009) Conformational changes associated with template commitment in ATP-dependent chromatin remodeling by ISW2. Mol Cell 35(1):58-69 |
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| Pinskaya M, et al. (2009) Nucleosome remodeling and transcriptional repression are distinct functions of Isw1 in Saccharomyces cerevisiae. Mol Cell Biol 29(9):2419-30 |
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| Valenzuela L, et al. (2009) Transcription independent insulation at TFIIIC-dependent insulators. Genetics 183(1):131-48 |
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| Venters BJ and Pugh BF (2009) A canonical promoter organization of the transcription machinery and its regulators in the Saccharomyces genome. Genome Res 19(3):360-71 |
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| Wan Y, et al. (2009) Role of the histone variant H2A.Z/Htz1p in TBP recruitment, chromatin dynamics, and regulated expression of oleate-responsive genes. Mol Cell Biol 29(9):2346-58 |
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| Arimbasseri AG and Bhargava P (2008) Chromatin structure and expression of a gene transcribed by RNA polymerase III are independent of H2A.Z deposition. Mol Cell Biol 28(8):2598-607 |
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| Arnett DR, et al. (2008) A proteomics analysis of yeast Mot1p protein-protein associations: insights into mechanism. Mol Cell Proteomics 7(11):2090-106 |
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| Benbow SZ and Dubois ML (2008) The dosage of chromatin proteins affects transcriptional silencing and DNA repair in Saccharomyces cerevisiae. FEBS Lett 582(4):497-502 |
