Department of Gene Function and Regulation, Institute of Life Sciences, Government of India, Chandrasekherpur, Orissa, India.
Gene. 2012 Jul 15;503(1):36-47. doi: 10.1016/j.gene.2012.04.053. Epub 2012 Apr 26.
In Figwort mosaic virus sub-genomic transcript promoter (F-Sgt), function of the TGACG-regulatory motif, was investigated in the background of artificially designed promoter sequences. The 131bp (FS, -100 to +31) long F-Sgt promoter sequence containing one TGACG motif [FS-(TGACG)] was engineered to generate a set of three modified promoter constructs: [FS-(TGACG)(2), containing one additional TGACG motif at 7 nucleotides upstream of the original one], [FS-(TGACG)(3), containing two additional TGACG motifs at 7 nucleotides upstream and two nucleotides downstream of the original one] and [FS-(TGCTG)(mu), having a mutated TGACG motif]. EMSA and foot-printing analysis confirmed binding of tobacco nuclear factors with modified TGACG motif/s. The transcription-activation of the GUS gene by the TGACG motif/s in above promoter constructs was examined in transgenic tobacco and Arabidopsis plants and observed that the transcription activation was affected by the spacing/s and number/s of the TGACG motif/s. The FS-(TGACG)(2) promoter showed strongest root-activity compared to other modified and CaMV35S promoters. Also under salicylic acid (SA) stress, the leaf-activity of the said promoter was further enhanced. All above findings were confirmed by real-time and semi-qRT PCR analysis. Taken together, these results clearly demonstrated that the TGACG motif plays an important role in inducing the root-specific expression of the F-Sgt promoter. This study advocates the importance of genetic manipulation of functional cis-motif for amending the tissue specificity of a plant promoter. SA inducible FS-(TGACG)(2) promoter with enhanced activity could be a useful candidate promoter for developing plants with enhanced crop productivity.
在筋骨草马赛克病毒亚基因组转录启动子(F-Sgt)中,在人为设计的启动子序列背景下研究了 TGACG 调节基序的功能。将含有一个 TGACG 基序[FS-(TGACG)]的 131bp(FS,-100 到+31)长 F-Sgt 启动子序列工程化为一组三个修饰的启动子构建体:[FS-(TGACG)(2),在原始基序上游 7 个核苷酸处包含一个额外的 TGACG 基序],[FS-(TGACG)(3),在原始基序上游 7 个核苷酸和下游 2 个核苷酸处包含两个额外的 TGACG 基序]和[FS-(TGCTG)(mu),具有突变的 TGACG 基序]。EMSA 和足迹分析证实了烟草核因子与修饰的 TGACG 基序/ s 的结合。通过转基因烟草和拟南芥植物检查了上述启动子构建体中 GUS 基因的转录激活,并观察到 TGACG 基序/ s 的转录激活受间隔/ s 和数量/ s 的影响。与其他修饰和 CaMV35S 启动子相比,FS-(TGACG)(2)启动子显示出最强的根活性。在水杨酸(SA)胁迫下,所述启动子的叶活性进一步增强。所有上述发现均通过实时和半 qRT-PCR 分析得到证实。综上所述,这些结果清楚地表明,TGACG 基序在诱导 F-Sgt 启动子的根特异性表达中起重要作用。这项研究强调了遗传操纵功能顺式基序对于修饰植物启动子组织特异性的重要性。具有增强活性的可诱导 SA 的 FS-(TGACG)(2)启动子可能是开发提高作物生产力的植物的有用候选启动子。
