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Simultaneous Mutation of Methylated Lysine Residues in Histone H3 Causes Enhanced Gene Silencing, Cell Cycle Defects, and Cell Lethality in Saccharomyces cerevisiae
Mol. Cell. Biol. Jin et al. 27: 6832

Supplemental material

Files in this Data Supplement:

  • Supplemental file 1 - Supplemental text; Fig. S1 (Cell cycle defects in the H3 K4,36,79R mutant strain), S2 and S3 (SIR silencing complex is required for the lethal phenotype of the histone H3 K4,36,79R mutant), S4 (Phenotypic analysis of the set1Δ set2Δ dot1Δ mutant strain), S5 (Western blot analysis of mono-, di-, and trimethylated H3K4 in various set1 mutants), and S6 (Effects of the histone H3 K4,36,79G and H3 K4,36,79R mutants on genome-wide expression levels), and Table S1 (Yeast strains and genotypes used in this study)
    MS Word document, 1.3MB.



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