Yoav Voichek, Gabriela Hristova, Almudena Mollá-Morales, Detlef Weigel, Magnus Nordborg
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引用次数: 0
摘要
我们对真核生物转录的了解大多源自动物和酵母;然而,植物单独进化了十多亿年,这为转录调控的分化留下了充足的时间。在这里,我们着手阐明植物顺式调控序列的基本特性。通过对四种植物进行大规模并行报告分析,我们证明了转录起始位点(TSS)下游序列在转录调控中的核心作用。与位置无关的动物增强子不同,植物调控元件取决于它们的位置,因为改变它们相对于 TSS 的位置会显著影响转录。我们通过鉴定一种在维管束植物中保守且足以以剂量依赖性方式增强基因表达的 DNA 基序,强调了 TSS 下游区域在转录调控中的重要性。大量位置依赖性增强子的鉴定指出了植物和动物基因调控的根本差异。
Widespread position-dependent transcriptional regulatory sequences in plants
Much of what we know about eukaryotic transcription stems from animals and yeast; however, plants evolved separately for over a billion years, leaving ample time for divergence in transcriptional regulation. Here we set out to elucidate fundamental properties of cis-regulatory sequences in plants. Using massively parallel reporter assays across four plant species, we demonstrate the central role of sequences downstream of the transcription start site (TSS) in transcriptional regulation. Unlike animal enhancers that are position independent, plant regulatory elements depend on their position, as altering their location relative to the TSS significantly affects transcription. We highlight the importance of the region downstream of the TSS in regulating transcription by identifying a DNA motif that is conserved across vascular plants and is sufficient to enhance gene expression in a dose-dependent manner. The identification of a large number of position-dependent enhancers points to fundamental differences in gene regulation between plants and animals. Massively parallel reporter assays in four plant species show that transcriptional regulatory elements are position dependent with enrichment downstream of the transcription start site, particularly GATC motifs with strong effects in vascular plants.
期刊介绍:
Nature Genetics publishes the very highest quality research in genetics. It encompasses genetic and functional genomic studies on human and plant traits and on other model organisms. Current emphasis is on the genetic basis for common and complex diseases and on the functional mechanism, architecture and evolution of gene networks, studied by experimental perturbation.
Integrative genetic topics comprise, but are not limited to:
-Genes in the pathology of human disease
-Molecular analysis of simple and complex genetic traits
-Cancer genetics
-Agricultural genomics
-Developmental genetics
-Regulatory variation in gene expression
-Strategies and technologies for extracting function from genomic data
-Pharmacological genomics
-Genome evolution