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Originally published as Genetics Published Articles Ahead of Print on August 9, 2008.
Genetics, Vol. 179, 1891-1901, August 2008, Copyright © 2008
doi:10.1534/genetics.108.087411
Developmental and Environmental Signals Induce Distinct Histone Acetylation Profiles on Distal and Proximal Promoter Elements of the C4-Pepc Gene in Maize
Sascha Offermann1, Björn Dreesen, Ina Horst, Tanja Danker, Michal Jaskiewicz and Christoph Peterhansel2
RWTH Aachen, Biology I, 52056 Aachen, Germany
2 Corresponding author: RWTH Aachen, Biology I, Worringer Weg 1, 52056 Aachen, Germany.
E-mail cp{at}bio1.rwth-aachen.de
The maize C4-Pepc gene is expressed in an organ- and cell-type-specific manner, inducible by light and modulated by nutrient availability and the metabolic state of the cell. We studied the contribution of histone acetylation at five lysine residues to the integration of these signals into a graduated promoter response. In roots and coleoptiles, where the gene is constitutively inactive, three of the five lysines were acetylated and the modifications showed unique patterns with respect to their distribution on the gene. A similar pattern was observed in etiolated leaves, where the gene is poised for activation by light. Here, illumination selectively induced the acetylation of histone H4 lysine 5 and histone H3 lysine 9 in both the promoter and the transcribed region, again with unique distribution patterns. Induction was independent of transcription and fully reversible in the dark. Nitrate and hexose availability modulated acetylation of all five lysines restricted to a distal promoter region, whereas proximal promoter acetylation was highly resistant to these stimuli. Our data suggest that light induction of acetylation is controlled by regulating HDAC activity, whereas metabolic signals regulate HAT activity. Acetylation turnover rates were high in the distal promoter and the transcribed regions, but low on the proximal promoter. On the basis of these results, we propose a model with three levels of stimulus-induced histone modifications that collectively adjust promoter activity. The results support a charge neutralization model for the distal promoter and a stimulus-mediated, but transcription-independent, histone acetylation pattern on the core promoter, which might be part of a more complex histone code.
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