Erratum to: Singh R.K. and Gunjan A. Histone tyrosine phosphorylation comes of age. Epigenetics 2011; 6:153-60.

Abstract

We recently noticed that there is a major error in Figure 1 of our review published in Epignetics 2010, Volume 6, Issue 2. During the preparation of the figure, the human and yeast H2B tyrosines were numbered the same, making the human numbering incorrect. The correct Figure 1 with proper numbering of human tyrosines is below.

Erratum to:

Singh R.K. and Gunjan A. Histone tyrosine phosphorylation comes of age.Epigenetics 2011; 6:153-60.

We recently noticed that there is a major error in Figure 1 of our review published in Epignetics 2010, Volume 6, Issue 2. During the preparation of the figure, the human and yeast H2B tyrosines were numbered the same, making the human numbering incorrect. The correct Figure 1 with proper numbering of human tyrosines is below.

Figure 1. Tyrosine residues are highly conserved between budding yeast and mammalian core histones. The four canonical core histone proteins from the budding yeast Saccharomyces cerevisiae are indicated by the prefix “Sc” and denoted in blue. The mammalian core histones and the mammalian variant histone H2A.X are shown in black. The number of amino acid (aa) residues in each core histone is indicated on the right. The location of the a-helices in the secondary structure of the histone proteins is indicated by cylinders. Tyrosine residues are shown as balloons and the tyrosine residues essential for viability in budding yeast histones are indicated by red balloons. Tyrosines in mammalian histones have not yet been evaluated to determine the residues essential for viability. Note the high degree of conservation of the location as well as the spacing of all but one tyrosine residue between budding yeast and mammalian core histones (H3 Y54 being the exception). Tyrosine residues that have recently been shown to be phosphorylated in vivo are marked by yellow “explosion” signs and the letter “P.” Additional tyrosine residues that are predicted to be reasonably accessible in the nucleosomal context under certain conditions and can be potentially phosphorylated in vivo are indicated by a yellow halo only on the mammalian histones for clarity, but are likely to be just as applicable to the yeast histones. Solid yellow halo indicates higher probability of phosphorylation, while a dashed yellow halo indicates lower probability of phosphorylation.

Singh RK, Gunjan A. Histone tyrosine phosphorylation comes of age. Epigenetics. 2011;6:153–60.

DOI: 10.4161/epi.6.12.18908