Functional analysis of a reproductive organ predominant expressing promoter in cotton plants

The successful development and application of transgenic Bt cotton is a milestone of cotton produc-tion in China[1]. However, the CaMV35s promoter is commonly used for driving Bt gene expression in transgenic cotton plants. During infection, the CaMV35S promoter can direct the synthesis of 35RNA [2]. From the aspect of bio-security, it would be more secure and compatible if the promoter of cot-ton plants could be utilized for transgene expression[3]. In addition, studies showed that unde…     

Functional analysis of a reproductive organ predominant expressing promoter in cotton plants

Transgenic Bt insect-resistant cotton plants have high insect resistance in the early stage of development, but relatively low resistance in the late stage. Substituting a reproductive organ-specific promoter for the CaMV35S promoter presently being used could be an ideal solution. For the first time, the promoter sequence of ADP-ribosylation factor 1 (arf1) gene was isolated from Gossypium hirsutumY18 by means of inverse PCR. The sequencing result discovered the unique structure of the arf1 promoter, including four promoter-specific elements, the initiator, TATA box, CAAT box and GC box, and also an intron in 5′-untranslation region. Four plant expression vectors were constructed for functional analysis of the promoter. Based on the pBI121 plant expression vector, four truncated arf1 promoters took the place of the CaMV35S promoter. These vectors were different only in their promoter regions. They were introduced into cotton plants via pollen tube pathway. Histochemical GUS staining and fluorescence quantitative analyses were performed to examine the expression patterns of the GUS gene driven by the 4 arf1 truncated promoters in transgenic cotton plants respectively. The results showed that the arf1 promoter was a typical reproductive organ-specific promoter. Hopefully, the arf1 promoter can be a regulatory element for designing cotton reproductive organs with desired characteristics.     

Transient gene expression in cassava using high-velocity microprojectiles

The bacterial gene encoding -glucuronidase (GUS) was transiently expressed in cassava leaves following the introduction of the gene by microparticle bombardment. The DNA expression vector used to introduce the reporter gene is a pUC 19 derivative and consisted of a CaMV 35S promoter (P35S), the GUS coding region and 7S polyadenylation region. Several other promoters and regulating sequences were tested for efficiency in cassava leaves. Two derivatives of the P35S, one including a partial duplication of the upstream region of the P35S and the other containing a tetramer of the octopine synthase enhancer, were found to be expressed at three times the level of the P35S in cassava leaves. The ubiquitin 1 promoter fromArabidopsis thaliana was expressed at the same level as the P35S. No influence on the level of expression was observed when different 3 ends were used. The biolistic transient gene expression system in cassava leaves allows rapid analysis of gene constructs and can serve as a preliminary screen for chimeric gene function in the construction of transgenic cassava plants.     

竹节花黄斑驳病毒启动子的缺失分析及功能

竹节花黄斑驳病毒(CoYMV)是侵染单子叶植物竹节花的一 种双链环状DNA病毒,它的启动子可介导外源基因在烟草韧皮部特异表达。为了研究其组织 特异性表达的最佳启动子区域,对CoYMV启动子进行了5′端五种不同长度的缺失分析,用不同长度的启动子片段与GUS基因及NOS3′端转录中止序列构建了全长启动子及5 个缺失启动子序列的六个嵌合GUS基因植物表达载体。利用农杆菌将上述嵌合基因转化烟草 外植体后,每种表达载体都获得了一批转基因烟草植株。转化再生烟草植株的PCR分析、GUS 酶活测定及GUS组织染色的结果表明六种类型的嵌合基因已整合到烟草染色体中,并有五种 表达出GUS活性。缺失到870bp的启动子比全长启动子(1040bp)的活性约高78%,870bp比585bp启动子介导的GUS活性略高但差别不明显,缺失到447和232时GUS活性有明显下 降,但仍具有韧皮部特异表达的特性。当缺失到TATA box附近的44bp时启动子丧失组织特 异性,GUS活性也降低到测不出来的水平。以上结果表明CoYMV启动子从转录起始位点上游 870bp～230bp及232bp下游区分别与启动子的活性和韧皮部组织特异性密切相关,870bp上游可能存在一个负调控序列,所以该启动子的活性和组织特异性的最佳调控区应在87 0bp或585bp的下游区。CoYMV启动子与35S启动子驱动GUS基因在烟草中表达的活性相比, 前者为后者的70%左右,考虑到前者仅在韧皮部细胞表达而后者为组成型表达,所以CoYMV启 动子在韧皮部的活性可能与35S启动子相当或更高。CoYMV启动子在其它转基因植物中驱动外 源基因表达的特点正在研究中。     

Promoter analysis in transient assays using a GUS reporter gene construct in creeping bentgrass (Agrostis palustris)

Transient expression profiles for several chimeric beta-glucuronidase (GUS) gene constructs were determined in tissues (young leaves, mature leaves and roots) of creeping bentgrass (Agrostis palustris, cv. Penn A4) following microprojectile bombardment. The constructs analyzed consisted of the uidA (GUS) reporter gene driven by four different promoters (ubiquitin 3-potato, ubiquitin corn, ubiquitin rice and CaMV 35S). The total number of GUS hits (or transient expression units; TEUs) were determined manually under a dissecting scope after histochemical staining for GUS. Results suggest that the ubiquitin rice promoter is most active in cells of turfgrass, regardless of the developmental stage or tissue-type. The ubiquitin corn promoter was the next best. Of the four promoter used, except for ubiquitin 3-potato, reporter gene activity was dramatically higher in mature leaves compared to young leaves. The relative efficiency of each promoter was about the same in roots and leaves. We have also analyzed uidA (GUS) reporter gene activity following microprojectile bombardment in transient expression assays with callus from two cultivars (Providence or Penn A4) of creeping bentgrass. Differences in the frequency of GUS positive hits were observed between cultivars up to 72 hours post-bombardment. However, this difference between cultivars disappeared after 72 hours post-bombardment. This information describing promoter functionality in bentgrass will be important when designing gene constructs for trait modification and when choosing appropriate cultivars for improvement through gene transfer experiments. This is the first in depth report on organ-specific and developmental gene expression profiles for transgenes in a turfgrass species.     

Relationship Between Ω as well as the Length of 3′poly (dA) and Efficiency of Gene Expression

Three plant high expression vectors harboring 25, 50 and 100 deoxyadenylate (dA) residues respectively in 3' untranslated region (3'-UTR) were constructed by inserting poly(dA) sequence into the primary vector containing CaMV 35S promoter doubled with region B and II which is a leader sequence derived from tobacco mosaic virus, within 5'-UTR. Transient expression of chimeric GUS gene in transgenic tobacco (Nicotiana tabacum L. ) mesophyll protoplasts showed that:doubled enhancer, Ω and poly (dA) increasd GUS expression. When both Ω and poly (dA) were present, the level of expression increased further, compared to that when only Ω was present. Moreover, when Ω was present, doubling the length of poly (dA) resulted in a further increase in GUS expression, which suggested a positive relationship between poly(dA) length and the level of expression.     

A/T-rich sequences act as quantitative enhancers of gene expression in transgenic tobacco and potato plants

The role of an A/T-rich positive regulatory region (P268, -444 to -177 from the translation start site) of the pea plastocyanin gene (PetE) promoter has been investigated in transgenic plants containing chimeric promoters fused to the -glucuronidase (GUS) reporter gene. This region enhanced GUS expression in leaves of transgenic tobacco plants when fused in either orientation to a minimal pea PetE promoter (-176 to +4) and in roots when fused in either orientation upstream or downstream of a minimal cauliflower mosaic virus 35S promoter (-90 to +5). The region was also able to enhance GUS expression in microtubers of transgenic potato plants when placed in either orientation upstream of a minimal class I patatin promoter (-332 to +14). Dissection of P268 revealed that cis elements responsible for enhancing GUS expression from the minimal PetE promoter were distributed throughout P268. Multiple copies of a 31 bp A/T-rich sequence from within P268 and of a 26 bp random A/T sequence were able to enhance GUS expression from the minimal PetE promoter, indicating that A/T-rich sequences are able to act as quantitative, non-tissue-specific enhancer elements in higher plants. Abbreviations: CaMV, cauliflower mosaic virus; GUS, -glucuronidase; HMG, high-mobility group; MAR, matrix-associated region; MU, methylumbelliferone; SAR, scaffold-associated region.     

Novel and useful properties of a chimeric plant promoter combining CaMV 35S and MAS elements

The CaMV 35S and Ti plasmid mannopine synthetase (mas) promoters are commonly used by plant genetic engineers. To combine their useful properties, we constructed hybrid promoters incorporating elements from both. These promoters were spliced to the beta-glucuronidase reporter gene and introduced into tobacco and tomato plants by Agrobacterium cocultivation. T1 and T2 transgenic plant populations transformed with different constructs were assayed for the marker enzyme. Comparisons were made based on the range of expression levels found for each promoter construct. We found that a hybrid promoter incorporating the mas region from +65 to -301 and the 35S enhancer region from -90 to -941 had new and interesting properties. This promoter, called Mac, expressed gus at a level three to five times that expressed by a double 35S promoter in the leaves, and 10 to 15 times in hypocotyls and roots. The Mac promoter, however, showed only marginal wound inducibility. Five- to seven-fold wound induction required the presence of the region from -301 to -613 of mas. Reiteration of the 35S enhancer region, from -90 to -430, behind the 35S TATA box region or the mas +65 to -301 region had a smaller effect on expression, ranging from equal to twice the level of the single enhancer control.