光反应性基因表达所需的组蛋白乙酰化方面

N. Eckardt
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引用次数: 0

摘要

组蛋白乙酰化是影响基因转录的染色质结构的重要组成部分。组蛋白的超乙酰化使染色质结构松弛,并与转录激活有关,而组蛋白的低乙酰化则诱导染色质压实和基因抑制。Benhamed等人(2893-2903页)提出了染色质组蛋白乙酰化对光调节基因表达影响的新信息。本研究明确了拟南芥GCN5和HD1在控制几个光反应基因的组蛋白乙酰化水平中的关键作用,并为我们理解油酸合染色质在调节基因表达中的作用做出了重要贡献。先前发现组蛋白乙酰转移酶TAF1在基因表达的轻度调控中是必需的。在这项工作中,作者表明组蛋白乙酰转移酶gcn5和组蛋白去乙酰化酶hd1也参与其中,并发挥相反的作用,可能有助于微调和平衡基因表达的调节。GCN5突变导致长下胚轴表型和减少光诱导基因表达,而HD1突变具有相反的效果。作者进一步表征了靶启动子上组蛋白乙酰化的程度和类型,发现TAF1、GCN5和hd1对基因表达轻度调节所需的组蛋白乙酰化具有独特和特异性的作用。
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Facets of Histone Acetylation Required for Light-Responsive Gene Expression
Histone acetylation is an important componentofchromatin structurethataffectsgene transcription. Hyperacetylation of histones relaxes chromatin structure and is associated with transcriptional activation, whereas hypoacetylation of histones induces chromatin compaction and gene repression. Benhamed et al. (pages 2893–2903) present new information on the effects ofhistone acetylation of chromatin on light-regulated gene expression. This work firmly establishes the pivotal role of Arabidopsis GCN5 and HD1 in controlling histone acetylation levels over several light-responsive genes and makes an important contribution to our understanding oftheroleplayedbychromatin in regulating gene expression. It was previously found that the histone acetyltransferase TAF1 is required for light regulation of gene expression. In this work, the authors show that histone acetyltransferase GCN5andhistonedeacetylaseHD1arealso involved and play opposing roles that may help tofine-tuneand balancelight regulation of gene expression. Mutations of GCN5 resulted in a long hypocotyl phenotype and reduced light-induced gene expression, whereas mutations in HD1 had the opposite effect. The authors further characterize the extent and type of histone acetylation on target promoters and find that TAF1, GCN5, andHD1havedistinctandspecificeffectson histone acetylation required for light regulation of gene expression.
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