Cis elements and potential trans-acting factors for the developmental regulation of the Phaseolus vulgaris CHS15 promoter

A nuclear factor (SBF-1) has previously been identified in Phaseolus vulgaris L. (bean) suspension cell nuclear extracts that binds in vitro to three DNase I-footprinted elements (SBF-1 boxes I, II, and III, 5 to 3) in the 5 region of the bean CHS15 (chalcone synthase) gene promoter. To define the functional role of the three SBF-1 boxes in development, we examined transgenic tobacco plants carrying a series of nested CHS15 promoter--glucuronidase (GUS) fusions for GUS activity by histochemical staining. We show that the CHS15 promoter deleted to position-173 and lacking all three SBF-1 boxes directs the same qualitative pattern of expression in initiating lateral roots and in developing seeds as the full length promoter (-326). Thus, activation of expression in these organs is mediated by sequence elements located downstream of the three SBF-1 boxes. However, specific deletions within the-326 to-173 region modulate expression. Thus, deletion of box II abolishes GUS activity in initiating lateral roots. Further deletion of box III fails to restore expression but subsequent deletion of an additional 43 bp to position-173 re-establishes expression. We show that sequence-specific DNA-binding activities consistent with these results are present in nuclear extracts of bean roots and seeds. These studies reveal cis elements within the CHS15 promoter, and potential trans factors, that permit organ- and tissue-specific developmental patterns of regulation to be combined with a flexible response to environmental cues.     

Analysis of the Tissue-SpecificS RNase gene promoter associated with self-incompatibility in tomato (Lycopersicon peruvianum L.)

To understand the expression pattern of theS RNase gene in the floral tissues associated with self-incompatibility (SI), promoter region of S₁₁ RNase gene was serially deleted and fused GUS. Five chimeric constructs containing a deleted promoter region of the S₁₁ RNase gene were constructed, and introduced intoNicotiana tabacum using Agrobacterium-mediated transformation. Northern blot analysis revealed that the GUS gene was expressed in the style, anther, and developing pollen of all stages in each transgenic tobacco plant The developing pollen expressed the same amount of GUS mRNA in all stages in transgenic tobacco plants. In addition, histochemical analysis showed GUS gene expression in vascular bundle, endothecium, stomium, and tapetum cells during pollen development in transgenic plants. From these results, it is speculated that SI ofLycopersicon peruvianum may occur through the interaction ofS RNase expressed in both style and pollen tissues.     

Cis-acting elements essential for light regulation of the nuclear gene encoding the A subunit of chloroplast glyceraldehyde 3-phosphate dehydrogenase in Arabidopsis thaliana.

We report the characterization of cis-acting elements involved in light regulation of the nuclear gene (GapA) that encodes the A subunit of glyceraldehyde 3-phosphate dehydrogenase in Arabidopsis thaliana. Our previous deletion analyses indicate that the -277 to -195 upstream region of GapA is essential for light induction of the beta-glucuronidase reporter gene in transgenic tobacco (Nicotiana tabacum) plants. This region contains three direct repeats with the consensus sequence 5'-CAAATGAA(A/G)A-3' (Gap boxes). Our results show that 2-bp substitutions of the last four nucleotides (AA or GA) of the Gap boxes by CC abolish light induction of the beta-glucuronidase reporter gene in vivo and affect binding of the Gap box binding factor in vitro. We have also identified an additional cis-acting element, AE (Activation Element) box, that is involved in regulation of GapA. A combination of a Gap box trimer and an AE box dimer can confer light responsiveness of the cauliflower mosaic virus 35S promoter containing the -92 to +6 upstream sequence, whereas oligomers of Gap boxes or AE boxes alone cannot confer light responsiveness on the same promoter. These results suggest that Gap boxes and AE boxes function together as the light-responsive element of GapA.     

A 126 bp fragment of a plant histone gene promoter confers preferential expression in meristems of transgenic Arabidopsis

The tissue-specific pattern of expression directed by the H4A748 Arabidopsis histone promoter was investigated by analysis of beta-glucuronidase (GUS) activity in transgenic Arabidopsis containing H4A748-GUS gene fusions. As determined by fluorimetric and histochemical tests, the H4A748 promoter directs preferential expression in meristems of young seedlings and adult plants. The low activity found in nonproliferating tissues may relate to basal constitutive expression of the histone promoter and/or to endoreduplication occurring in some tissues. The endogenous histone mRNA levels parallel the GUS activity found in different tissues. Analysis of the regulatory properties of 5' deleted promoters showed that multiple positive elements exist between -900 and -219 and that the proximal region of the promoter to -219 is sufficient to establish the full tissue-specific pattern of expression. Further deletion to -93 nearly abolished the promoter activity thus suggesting that the 126 bp fragment located between -219 and -93 contains the elements responsible for the specific expression pattern. The presence of several remarkable sequences within this fragment is discussed.     

大麦与油菜种皮特异启动子表达模式的比较

启动子位于转录起始位点上游并能特异性地结合RNA聚合酶,其作为调控序列驱动外源基因在异源植物中表达,从而实现转基因的高效性,具有时空表达特异性的启动子对获得有效转基因植物及产物具有重要意义。为了解种皮特异启动子的表达模式,该研究基于前期报道的序列,通过同源克隆的方法分别从大麦和油菜中克隆获得Gerb和Bntt两个种皮特异性启动子,并对其进行生物信息学分析,构建了Gerb::GUS和Bntt::GUS植物表达载体并转化拟南芥,通过组织化学染色观察了GUS的表达情况。结果表明:两种启动子序列中都含有多拷贝种皮特异表达启动子元件以及多种胁迫诱导响应元件;转基因拟南芥幼苗期,大麦Gerb种皮特异启动子驱动GUS全株表达且子叶和下胚轴较真叶和根中表达量高;油菜Bntt种皮特异启动子表达较弱;成株期,Gerb在不同组织(叶片、茎、花序和角果)中均有表达,未显示组织特异性;Bntt仅在叶片及角果维管束中有微弱表达。在各种非生物胁迫下,Gerb表达模式未发生显著变化,而Bntt仅在盐胁迫下显示很强的角果和种子特异性表达,其他胁迫未见明显表达。以上结果显示,大麦种皮特异性启动子Gerb和油菜种皮特异性启动子Bntt在时间和空间表达模式上存在差异,这对今后选择种皮特异启动子具有参考作用,但其具体机制仍需进一步研究验证。     

Mutation of either G box or I box sequences profoundly affects expression from the Arabidopsis rbcS-1A promoter.

A deletion analysis of the Arabidopsis thaliana rbcS-1A promoter defined a 196 bp region (-320 to -125) sufficient to confer light-regulated expression on a heterologous Arabidopsis alcohol dehydrogenase (Adh) reporter gene in transgenic Nicotiana tabacum (tobacco) leaves. This region, which contains DNA sequences I, G and GT boxes, with homology to other ribulose-1,5-bisphosphate carboxylase small subunit (RBCS) gene promoter sequences, directed expression independent of orientation and relative position in the Adh promoter. Site-specific mutagenesis of these conserved sequences and subsequent expression analysis in transgenic tobacco showed that both G box and I box mutations in the context of the full (-1700 to +21) rbcS-1A promoter substantially reduced the expression of Adh and beta-glucuronidase (GUS) reporter genes. The G box has previously been shown to specifically bind in vitro a factor isolated from nuclear extracts of tomato and Arabidopsis. This factor (GBF) is distinct from the factor GT-1 which binds to adjacent GT boxes in the pea rbcS-3A promoter. Multiple mutations in putative Arabidopsis rbcS-1A promoter GT boxes had no pronounced affect on expression, possibly due to a redundancy of these sites. Experiments in which rbcS-1A promoter fragments were fused to truncated 35S CaMV (cauliflower mosaic virus) promoter--GUS reporter constructs showed that cis-acting CaMV promoter elements could partially restore expression to G-box-mutated rbcS-1A sequences.