HHF1/YBR009C Literature Guide 
Other names published for HHF1: YBR009C
HHF1 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
HHF1 - Mutants/Phenotypes (134)
| Reference | Other Genes Addressed |
|---|---|
| Cheung WL, et al. (2005) Phosphorylation of histone H4 serine 1 during DNA damage requires casein kinase II in S. cerevisiae. Curr Biol 15(7):656-60 |
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| Dion MF, et al. (2005) Genomic characterization reveals a simple histone H4 acetylation code. Proc Natl Acad Sci U S A 102(15):5501-6 |
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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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| Hyland EM, et al. (2005) Insights into the role of histone H3 and histone H4 core modifiable residues in Saccharomyces cerevisiae. Mol Cell Biol 25(22):10060-70 |
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| Lynch PJ, et al. (2005) Sum1p, the origin recognition complex, and the spreading of a promoter-specific repressor in Saccharomyces cerevisiae. Mol Cell Biol 25(14):5920-32 |
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| Prado F and Aguilera A (2005) Partial depletion of histone H4 increases homologous recombination-mediated genetic instability. Mol Cell Biol 25(4):1526-36 |
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| Ye J, et al. (2005) Histone H4 lysine 91 acetylation a core domain modification associated with chromatin assembly. Mol Cell 18(1):123-30 |
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| Flaus A, et al. (2004) Sin mutations alter inherent nucleosome mobility. EMBO J 23(2):343-53 |
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| Jacobson SJ, et al. (2004) Functional analyses of chromatin modifications in yeast. Methods Enzymol 377:3-55 |
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| Martin AM, et al. (2004) Redundant roles for histone H3 N-terminal lysine residues in subtelomeric gene repression in Saccharomyces cerevisiae. Genetics 167(3):1123-32 |
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| Sabet N, et al. (2004) Genome-wide analysis of the relationship between transcriptional regulation by Rpd3p and the histone H3 and H4 amino termini in budding yeast. Mol Cell Biol 24(20):8823-33 |
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| Chiu YH, et al. (2003) A targeted histone acetyltransferase can create a sizable region of hyperacetylated chromatin and counteract the propagation of transcriptionally silent chromatin. Genetics 165(1):115-25 |
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| Kassabov SR, et al. (2003) SWI/SNF unwraps, slides, and rewraps the nucleosome. Mol Cell 11(2):391-403 |
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| Ladurner AG, et al. (2003) Bromodomains mediate an acetyl-histone encoded antisilencing function at heterochromatin boundaries. Mol Cell 11(2):365-76 |
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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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| Sabet N, et al. (2003) Global and specific transcriptional repression by the histone H3 amino terminus in yeast. Proc Natl Acad Sci U S A 100(7):4084-9 |
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| Matecic M, et al. (2002) SIR2-induced inviability is suppressed by histone H4 overexpression. Genetics 162(2):973-6 |
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| Smith CM, et al. (2002) Heritable chromatin structure: mapping "memory" in histones H3 and H4. Proc Natl Acad Sci U S A 99 Suppl 4():16454-61 |
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| Suka N, et al. (2002) Sir2p and Sas2p opposingly regulate acetylation of yeast histone H4 lysine16 and spreading of heterochromatin. Nat Genet 32(3):378-83 |
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| Venditti S, et al. (2002) Genetic remodeling and transcriptional remodeling of subtelomeric heterochromatin are different. Biochemistry 41(15):4901-10 |
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| Holmes SG and Mitchell Smith M (2001) Replication of minichromosomes in Saccharomyces cerevisiae is sensitive to histone gene copy number and strain ploidy. Yeast 18(4):291-300 |
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| Ornaghi P, et al. (1999) The bromodomain of Gcn5p interacts in vitro with specific residues in the N terminus of histone H4. J Mol Biol 287(1):1-7 |
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| Pollard KJ, et al. (1999) Functional interaction between GCN5 and polyamines: a new role for core histone acetylation. EMBO J 18(20):5622-33 |
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| Ravindra A, et al. (1999) High-resolution structural analysis of chromatin at specific loci: Saccharomyces cerevisiae silent mating-type locus HMRa. Mol Cell Biol 19(12):7944-50 |
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| Venditti S, et al. (1999) Imbalance in dosage of the genes for the heterochromatin components Sir3p and histone H4 results in changes in the length and sequence organization of yeast telomeres. Mol Gen Genet 262(2):367-77 |
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| Meluh PB, et al. (1998) Cse4p is a component of the core centromere of Saccharomyces cerevisiae. Cell 94(5):607-13 |
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| Perez-Martin J and Johnson AD (1998) Mutations in chromatin components suppress a defect of Gcn5 protein in Saccharomyces cerevisiae. Mol Cell Biol 18(2):1049-54 |
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| Perez-Martin J and Johnson AD (1998) The C-terminal domain of Sin1 interacts with the SWI-SNF complex in yeast. Mol Cell Biol 18(7):4157-64 |
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| Zhang W, et al. (1998) Essential and redundant functions of histone acetylation revealed by mutation of target lysines and loss of the Gcn5p acetyltransferase. EMBO J 17(11):3155-67 |
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| Wechser MA, et al. (1997) Effects of Sin- versions of histone H4 on yeast chromatin structure and function. EMBO J 16(8):2086-95 |
