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Switching on Chromatin: Mechanistic Role of Histone H4-K16 Acetylation
Michael Shogren-Knaak and Craig L. Peterson
volume 5 | issue 13
1 july 2006Pages: 1361 - 1365
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DNA in eukaryotic organisms does not exist free in cells, but instead is present as chromatin, a complex assembly of DNA, histone proteins, and chromatin-associated proteins. Chromatin exhibits a complex hierarchy of structures, but in its simplest form it is composed of long linear arrays of nucleosomes. Nucleosomes contain 147 base pairs of DNA wrapped around a histone octamer, consisting of two copies each of histones H2A, H2B, H3 and H4, where 15-38 amino terminal residues of each histone protein extends past the DNA gyres to form histone “tails” 1. Chromatin provides a versatile regulatory platform for nearly all cellular processes that involve DNA, and improper chromatin regulation results in a wide range of diseases, including various cancers and congenital defects. One major way that chromatin regulates DNA utilization is through a wide range of post-translational modification of histones, including serine and threonine phosphorylation, lysine acetylation, methylation, ubiquitination, and sumoylation, and arginine methylation 2. Histone H4 K16 acetylation is a modification that occurs on the H4 histone tail and is one of the most frequent of the known histone modifications. We have demonstrated that this mark both disrupts formation of higher-order chromatin structure and changes the functional interaction of chromatin-associated proteins 3. Our results suggest a dual mechanism by which H4 K16 acetylation can ultimately facilitate genomic functions.
We now provide open access to journal articles published online for one year or more. This article may be downloaded at the following link:
Download PDF If the document does not open, please right-click on the link (control-click on a Macintosh) and select the option to save the file to disk.