Fa. Myers et al., Targeted and extended acetylation of histones H4 and H3 at active and inactive genes in chicken embryo erythrocytes, J BIOL CHEM, 276(23), 2001, pp. 20197-20205
Affinity-purified polyclonal antibodies recognizing the most highly acetyla
ted forms of histones H3 and H4 were used in immunoprecipitation assays wit
h chromatin fragments derived from 15-day chicken embryo erythrocytes by mi
crococcal nuclease digestion. The distribution of hyperacetylated H4 and H3
was mapped at the housekeeping gene, glyceraldehyde S-phosphate dehydrogen
ase (GAPDH), and the tissue-specific gene, carbonic anhydrase (CA), H3 and
H4 acetylation was found targeted to the CpG island region at the 5' end of
both these genes, falling off in the downstream direction. In contrast, at
the beta (A)-globin gene, both H3 and H4 are highly acetylated throughout
the gene and at the downstream enhancer, with a maximum at the promoter. Lo
w level acetylation was observed at the 5' end of the inactive ovalbumin ge
ne. Run-on assays to measure ongoing transcription showed that the GAPDH an
d CA genes are transcribed at a much lower rate than the adult beta (A)-glo
bin gene. The extensive high level acetylation at the beta (A)-globin gene
correlates most simply with its high rate of transcription. The targeted ac
etylation of histones H3 and H4 at the GAPDH and CA genes is consistent wit
h a role in transcriptional initiation and implies that transcriptional elo
ngation does not necessarily require hyperacetylation.