Zhang D scite author profile

Zhang D

2Publications

44Citation Statements Received

154Citation Statements Given

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University of Chicago

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Class I Histone Deacetylases (HDAC1–3) are Histone Lysine Delactylases

Moreno–Yruela

Wei

et al. 2021

Preprint

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Lysine L-lactylation (K(L-la)) is a newly discovered histone mark that can be stimulated under conditions of high glycolysis, such as the Warburg effect. K(L-la) is associated with functions that are different from the widely studied histone acetylation. While K(L-la) can be introduced by the acetyltransferase p300, histone delactylase enzymes remain unknown. Here, we report the systematic evaluation of zinc- and NAD+-dependent HDACs for their ability to cleave epsilon-N-L-lactyllysine marks. Our screens identified HDACs 1-3 and SIRT1-3 as delactylases in vitro. HDACs 1-3 show robust activity toward not only K(L-la) but also K(D-la) and diverse short-chain acyl modifications. We further confirmed the de-L-lactylase activity of HDACs 1 and 3 in cells. Identification of p300 and HDAC3 as regulatory enzymes suggests that histone lactylation is installed and removed by enzymes as opposed to spontaneous chemical reactivity. Our results therefore represent an important step toward full characterization of this pathway's regulatory elements.

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Histone acetylation in chicken erythrocytes. Estimation of the percentage of sites actively modified

D¹,

Nelson²

1986

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Within the N-terminal regions of the DNA-bound histone, 26 lysine residues per nucleosome may be acetylated and deacetylated. In the present paper the percentage of these residues actively acetylated and deacetylated in chicken erythrocytes was measured. This percentage is estimated as 3.7% in chicken immature, and 2.1% in chicken mature, erythrocytes. In metabolically active, dividing, cells one would predict that, after a few generations, each site would at some point in time be modified. We conclude that, in the relatively inactive immature chicken erythrocyte, no more than 1-2% of the genome is composed of dynamically acetylated and deacetylated histone, this percentage decreasing with cell maturity. The active histone acetylation and deacetylation may be confined to transcriptionally active or potentially active erythrocyte domains.

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Zhang D

Class I Histone Deacetylases (HDAC1–3) are Histone Lysine Delactylases

Histone acetylation in chicken erythrocytes. Estimation of the percentage of sites actively modified

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