HTA2/YBL003C Literature Guide 
Other names published for HTA2: H2A2, YBL003C
HTA2 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
HTA2 - Strains/Constructs (67)
| Reference | Other Genes Addressed |
|---|---|
| Visnapuu ML and Greene EC (2009) Single-molecule imaging of DNA curtains reveals intrinsic energy landscapes for nucleosome deposition. Nat Struct Mol Biol 16(10):1056-62 |
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| Biswas D, et al. (2008) Different genetic functions for the Rpd3(L) and Rpd3(S) complexes suggest competition between NuA4 and Rpd3(S). Mol Cell Biol 28(14):4445-58 |
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| Park YJ, et al. (2008) Histone chaperone specificity in Rtt109 activation. Nat Struct Mol Biol 15(9):957-64 |
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| Xue X and Lehming N (2008) Nhp6p and Med3p regulate gene expression by controlling the local subunit composition of RNA polymerase II. J Mol Biol 379(2):212-30 |
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| Altaf M, et al. (2007) Interplay of chromatin modifiers on a short basic patch of histone H4 tail defines the boundary of telomeric heterochromatin. Mol Cell 28(6):1002-14 |
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| Hammet A, et al. (2007) Rad9 BRCT domain interaction with phosphorylated H2AX regulates the G1 checkpoint in budding yeast. EMBO Rep 8(9):851-7 |
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| Matsubara K, et al. (2007) Global analysis of functional surfaces of core histones with comprehensive point mutants. Genes Cells 12(1):13-33 |
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| Moore JD, et al. (2007) Diverse Roles for Histone H2A Modifications in DNA Damage Response Pathways in Yeast. Genetics 176(1):15-25 |
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| Javaheri A, et al. (2006) Yeast G1 DNA damage checkpoint regulation by H2A phosphorylation is independent of chromatin remodeling. Proc Natl Acad Sci U S A 103(37):13771-6 |
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| Papamichos-Chronakis M, et al. (2006) Interplay between Ino80 and Swr1 chromatin remodeling enzymes regulates cell cycle checkpoint adaptation in response to DNA damage. Genes Dev 20(17):2437-49 |
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| Redon C, et al. (2006) Genetic analysis of Saccharomyces cerevisiae H2A serine 129 mutant suggests a functional relationship between H2A and the sister-chromatid cohesion partners Csm3-Tof1 for the repair of topoisomerase I-induced DNA damage. Genetics 172(1):67-76 |
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| Toh GW, et al. (2006) Histone H2A phosphorylation and H3 methylation are required for a novel Rad9 DSB repair function following checkpoint activation. DNA Repair (Amst) 5(6):693-703 |
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| Fazzio TG, et al. (2005) Two distinct mechanisms of chromatin interaction by the Isw2 chromatin remodeling complex in vivo. Mol Cell Biol 25(21):9165-74 |
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| Harvey AC, et al. (2005) Saccharomyces cerevisiae histone H2A Ser122 facilitates DNA repair. Genetics 170(2):543-53 |
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| Hodges JL, et al. (2005) Nuclear import of TFIIB is mediated by Kap114p, a karyopherin with multiple cargo-binding domains. Mol Biol Cell 16(7):3200-10 |
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| Kuo HC, et al. (2005) Histone H2A and Spt10 cooperate to regulate induction and autoregulation of the CUP1 metallothionein. J Biol Chem 280(1):104-11 |
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| Tsukuda T, et al. (2005) Chromatin remodelling at a DNA double-strand break site in Saccharomyces cerevisiae. Nature 438(7066):379-83 |
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| Downs JA, et al. (2004) Binding of chromatin-modifying activities to phosphorylated histone H2A at DNA damage sites. Mol Cell 16(6):979-90 |
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| Greiner M, et al. (2004) The histones H2A/H2B and H3/H4 are imported into the yeast nucleus by different mechanisms. Eur J Cell Biol 83(10):511-20 |
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| Unal E, et al. (2004) DNA damage response pathway uses histone modification to assemble a double-strand break-specific cohesin domain. Mol Cell 16(6):991-1002 |
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| Larochelle M and Gaudreau L (2003) H2A.Z has a function reminiscent of an activator required for preferential binding to intergenic DNA. EMBO J 22(17):4512-22 |
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| McBryant SJ, et al. (2003) Preferential binding of the histone (H3-H4)2 tetramer by NAP1 is mediated by the amino-terminal histone tails. J Biol Chem 278(45):44574-83 |
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| Redon C, et al. (2003) Yeast histone 2A serine 129 is essential for the efficient repair of checkpoint-blind DNA damage. EMBO Rep 4(7):678-84 |
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| Wyatt HR, et al. (2003) Multiple roles for Saccharomyces cerevisiae histone H2A in telomere position effect, Spt phenotypes and double-strand-break repair. Genetics 164(1):47-64 |
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| Mosammaparast N, et al. (2001) Nuclear import of histone H2A and H2B is mediated by a network of karyopherins. J Cell Biol 153(2):251-62 |
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| Tsui K, et al. (1997) Progression into the first meiotic division is sensitive to histone H2A-H2B dimer concentration in Saccharomyces cerevisiae. Genetics 145(3):647-59 |
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| Lenfant F, et al. (1996) All four core histone N-termini contain sequences required for the repression of basal transcription in yeast. EMBO J 15(15):3974-85 |
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| Recht J, et al. (1996) Functional analysis of histones H2A and H2B in transcriptional repression in Saccharomyces cerevisiae. Mol Cell Biol 16(6):2545-53 |
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| Rinckel LA and Garfinkel DJ (1996) Influences of histone stoichiometry on the target site preference of retrotransposons Ty1 and Ty2 in Saccharomyces cerevisiae. Genetics 142(3):761-76 |
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| Dollard C, et al. (1994) SPT10 and SPT21 are required for transcription of particular histone genes in Saccharomyces cerevisiae. Mol Cell Biol 14(8):5223-8 |
