van der Meer I M, Brouwer M, Spelt C E, Mol J N, Stuitje A R
Department of Genetics, Vrije Universiteit, de Boelelaan, Amsterdam, The Netherlands.
Plant J. 1992 Jul;2(4):525-35. doi: 10.1111/j.1365-313x.1992.00525.x.
Analysis of the expression of the GUS reporter gene driven by various regions of the Petunia hybrida chalcone synthase (chsA) promoter revealed that the developmental and organ-specific expression of the chsA gene is conferred by a TATA proximal module located between -67 and -53, previously designated as the TACPyAT repeats. Histochemical analysis of GUS reporter gene expression revealed that the organ-specific 67 bp promoter fragment directs the same cell-type specificity as a 530 bp promoter, whereas additional enhancer sequences are present within the more TATA distal region. Moreover, the region between -800 and -530 is also involved in extending the cell-type specificity to the trichomes of flower organs and of young seedlings. The mechanism by which the TACPyAT repeats modulate expression during plant development was studied by analysing the expression of the GUS gene driven by chimeric promoters consisting of the CaMV 35S enhancer (domain B, -750 to -90) fused to various chsA 5' upstream sequences. Detailed enzymatic and histochemical analysis revealed that in the presence of the TACPyAT module the CaMV 35S region only enhances GUS activity in those organs in which the chsA promoter is normally active. Furthermore, this analysis shows that enhancement in the presence of the CaMV 35S domain B is accomplished by increasing the number of cell types expressing the GUS gene within the organ, rather than enhancement of the chsA cell-type-specific expression within these organs. Deletion of the TACPyAT sequences in the chimeric promoter construct completely restores the well-documented CaMV 35S domain B cell-type specificity, showing that the TACPyAT module acts as a dominant negative cis-acting element which controls both organ and developmental regulation of the chsA promoter activity.
对由矮牵牛查尔酮合酶(chsA)启动子不同区域驱动的GUS报告基因的表达分析表明,chsA基因的发育和器官特异性表达由位于-67至-53之间的TATA近端模块赋予,该模块先前被指定为TACPyAT重复序列。GUS报告基因表达的组织化学分析表明,器官特异性的67 bp启动子片段指导的细胞类型特异性与530 bp启动子相同,而更多的增强子序列存在于更靠近TATA的远端区域。此外,-800至-530之间的区域也参与将细胞类型特异性扩展到花器官和幼苗的毛状体。通过分析由CaMV 35S增强子(结构域B,-750至-90)与各种chsA 5'上游序列融合而成的嵌合启动子驱动的GUS基因的表达,研究了TACPyAT重复序列在植物发育过程中调节表达的机制。详细的酶学和组织化学分析表明,在存在TACPyAT模块的情况下,CaMV 35S区域仅在chsA启动子正常活跃的那些器官中增强GUS活性。此外,该分析表明,在存在CaMV 35S结构域B的情况下的增强是通过增加器官内表达GUS基因的细胞类型数量来实现的,而不是通过增强这些器官内chsA细胞类型特异性表达来实现的。嵌合启动子构建体中TACPyAT序列的缺失完全恢复了已充分证明的CaMV 35S结构域B细胞类型特异性,表明TACPyAT模块作为一个显性负顺式作用元件,控制chsA启动子活性的器官和发育调控。
