协调水稻束鞘表达的转录因子五重奏

Lei Hua, Na Wang, Susan Stanley, Ruth Donald, Satish Kumar Eeda, Kumari Billakurthi, Ana Rita Borba, Julian M Hibberd
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摘要

C4 光合作用已在六十多个植物品系中进化,可将光合效率提高约 50%。C4 植物的一个统一特征是光合作用激活束鞘等区室,但人们对控制这种细胞类型的基因调控网络知之甚少。在拟南芥中,一个双方 MYC-MYB 转录因子模块限制了这些细胞的基因表达,但在禾本科植物中,允许束鞘基因表达的调控逻辑尚未确定。利用全球主粮和 C3 作物水稻,我们确定了硫酸盐还原酶(SULFITE REDUCTASE)启动子足以实现强束鞘表达。该启动子编码了一个复杂的顺式调控逻辑,其中有多个激活因子和抑制因子共同起作用。在这个结构中,我们发现了一个由 WRKY、G2-like、MYB-related、IDD 和 bZIP 家族的五种转录因子激活的远端增强子。该模块是水稻束鞘基因表达模式的必要和充分条件。增强子的寡聚化以及与含有 Y 片段的核心启动子的融合使其活性提高了 220 倍。该增强子能在拟南芥中产生束鞘特异性表达,表明单子叶植物和双子叶植物之间在功能上的深度保护。总之,我们发现了一种古老、简短、可调节的增强子,它能使束鞘的表达模式化,我们预计它将有助于在各种作物中对这种细胞类型进行工程化。
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A transcription factor quintet orchestrating bundle sheath expression in rice
C4 photosynthesis has evolved in over sixty plant lineages and improves photosynthetic efficiency by ~50%. One unifying character of C4 plants is photosynthetic activation of a compartment such as the bundle sheath, but gene regulatory networks controlling this cell type are poorly understood. In Arabidopsis a bipartite MYC-MYB transcription factor module restricts gene expression to these cells but in grasses the regulatory logic allowing bundle sheath gene expression has not been defined. Using the global staple and C3 crop rice we identified the SULFITE REDUCTASE promoter as sufficient for strong bundle sheath expression. This promoter encodes an intricate cis-regulatory logic with multiple activators and repressors acting combinatorially. Within this landscape we identified a distal enhancer activated by a quintet of transcription factors from the WRKY, G2-like, MYB-related, IDD and bZIP families. This module is necessary and sufficient to pattern gene expression to the rice bundle sheath. Oligomerisation of the enhancer and fusion to core promoters containing Y-patches allowed activity to be increased 220-fold. This enhancer generates bundle sheath-specific expression in Arabidopsis indicating deep conservation in function between monocotyledons and dicotyledons. In summary, we identify an ancient, short, and tuneable enhancer patterning expression to the bundle sheath that we anticipate will be useful for engineering this cell type in various crop species.
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