Isolation and Characterization of OsGSTL1 Promoter from Rice

OsGSTL1 gene was isolated from the rice genomic library. Semi-quantitative RT-PCR analysis demonstrated that the expression of the OsGSTL1 in rice was not induced by chlorsulfuron, ethylene, abscisic acid, salicylic acid, and methyl jasmonate. In order to investigate the cis-elements of OsGSTL1 promoter, the promoter regions with different lengths were fused to the β-glucuronidase (GUS) reporter gene. All constructs were transformed into onion epidermal cells or A. thaliana plants to detect the expression patterns. In onion epidermal cells, the 160 bp fragment and longer ones were functional for directing GUS expression. In transgenic A. thaliana, the 2?155 bp upstream region of OsGSTL1 gene directed the GUS expression only in cotyledon after germination, but not in the root of young seedlings. In the later seedling, the 2?155 bp upstream region of OsGSTL1 gene directed GUS expression in roots, stems, and leaves. However, the GUS gene directed by a 1?224 bp upstream fragment is expressed in all the checked tissues. These results suggest that the spatiotemporal expression response elements of OsGSTL1 existed in the 5′-upstream region between −2?155 and −1?224 bp.     

Functional analysis of a cryptic promoter from <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> reveals bidirectionality

Cryptic promoter elements play a significant role in evolution of plant gene expression patterns and are prospective tools for creating gene expression systems in plants. In a previous report, a 452 bp promoter fragment designated as cryptic root-specific promoter (AY601849) was identified immediately upstream to T-DNA insertion, in the intergenic region between divergent genes SAHH1 and SHMT4, in T-DNA tagged mutant M57 of Arabidopsis thaliana. In silico analysis of 452 bp promoter revealed typical eukaryotic promoter architecture, presence of root-specific motifs and other cis-regulatory motifs responsible for the spatial and temporal expression. GUS expression driven by 452 bp in M57 was developmentally as well as light-regulated. The AT-rich 452 bp promoter does not show homology to any known sequences. The 452 bp promoter was further proved cryptic and detailed molecular characterization of the promoter carried out through serial 5′ and 3′ deletion analysis, by cloning the promoter fragments upstream to promoter-less GUS vector. A 279 bp fragment obtained by deleting 173 bp from 5′ end of 452 bp was capable of driving root-specific expression, similar to that of full-length promoter. Further, root tip-specific, root-specific and core-regulatory motifs for root-specific expression were identified at positions 173–227, 251–323 and 408–452 bp, respectively, from the 5′ end of 452 bp. The 452 bp promoter was equally functional in inverse orientation, hence bidirectional and symmetric. In heterologous systems, such as Brassica juncea and Oryza sativa, the promoter activity was not significant since GUS was not visually detected in transient assays.     

The CsSUT1 promoter from Citrus sinensis confers sink-specific expression of a downstream reporter gene in transgenic Arabidopsis

Membrane-localized H⁺-symporting sucrose transporters (SUC or SUT proteins) are involved in sucrose loading into the phloem of source tissues and sucrose uptake into sink tissues, which are essential events in the growth and development of higher plants. While many of these sucrose transporters are localized in the phloem, others function in sink tissues. In an attempt to gain insight into which class the CsSUT1 gene from Citrus sinensis falls, we isolated a 1537-bp upstream region of this gene (CsSUT1p), inserted it upstream of the ??-glucuronidase (GUS) reporter gene and transformed the resulting vector into Arabidopsis thaliana. Histochemical and semi-quantitative RT-PCR analyses indicated that the CsSUT1p conferred GUS expression in floral tissues and the roots of young seedlings, but not above ground vegetative tissues. In flowers, GUS expression was noted in young floral buds, as well as immature stamens and carpels. Deletion analyses indicated that a ?1052 to ?1 fragment (relative to the translational start codon at +1) of the CsSUT1p, but not a ?496 to ?1 fragment, was able to drive the same pattern of expression of a downstream reporter gene in transgenic Arabidopsis. Taken together, these results suggest that the CsSUT1 gene, like numerous SUC/SUT genes from other plant species, may play a role in the uptake of sucrose into sink tissues.     

The sucrose synthase-1 promoter from Citrus sinensis directs expression of the β-glucuronidase reporter gene in phloem tissue and in response to wounding in transgenic plants

Interest in phloem-specific promoters for the engineering of transgenic plants has been increasing in recent years. In this study we isolated two similar, but distinct, alleles of the Citrus sinensis sucrose synthase-1 promoter (CsSUS1p) and inserted them upstream of the β-glucuronidase (GUS) gene to test their ability to drive expression in the phloem of transgenic Arabidopsis thaliana and Nicotiana tabacum. Although both promoter variants were capable of conferring localized GUS expression in the phloem, the CsSUS1p-2 allele also generated a significant level of expression in non-target tissues. Unexpectedly, GUS expression was also instigated in a minority of CsSUS1p::GUS lines in response to wounding in the leaves of transgenic Arabidopsis. Deletion analysis of the CsSUS1p suggested that a fragment comprising nucleotides −410 to −268 relative to the translational start site contained elements required for phloem-specific expression while nucleotides −268 to −103 contained elements necessary for wound-specific expression. Interestingly, the main difference between the two CsSUS1p alleles was the presence of a 94-bp insertion in allele 2. Fusion of this indel to a minimal promoter and GUS reporter gene indicated that it contained stamen and carpel-specific enhancer elements. This finding of highly specific and separable regulatory units within the CsSUS1p suggests that this promoter may have a potential application in the generation of constructs for the use in the development of transgenic plants resistant to a wide variety of target pests.     

Molecular and Histochemical Analysis of a T-DNA Tagged Mutant of Arabidopsis Exhibiting Anther — Specific GUS Expression

An Arabidopsis thaliana mutant, exhibiting anther specific GUS expression, identified from a mutant population of Arabidopsis tagged with a promoterless β-glucuronidase (GUS), carries the T-DNA insertions at two distinct loci. We have been able to segregate the two inserts from each other by backcrossing with wild type plants. The insertion responsible for anther specific GUS expression in segregating population has been identified and confirmed to be in the upstream region of a putative peroxidase gene, AT2G24800. Here we report detailed histochemical and molecular characterization of the mutant Anth85, carrying a single insertion of T-DNA in the peroxidase gene. In Anth85, the GUS expression was observed in the anthers and rosette of the young seedlings. The expression of GUS in the anthers was restricted to the tapetum and microspores. The mutant has no developmental defects and the gene appears to be redundant for normal plant growth. Cloning of upstream region and detailed deletion study of upstream region in transgenic plants is likely to lead to the identification of anther specific promoter elements.     

Pollen-Specific Expression of <Emphasis Type="Italic">Oryza sativa Indica</Emphasis> Pollen Allergen Gene (<Emphasis Type="Italic">OSIPA</Emphasis>) Promoter in Rice and <Emphasis Type="Italic">Arabidopsis</Emphasis> Transgenic Systems

Earlier, a pollen-specific Oryza sativa indica pollen allergen gene (OSIPA), coding for expansins/pollen allergens, was isolated from rice, and its promoter—upon expression in tobacco and Arabidopsis—was found active during the late stages of pollen development. In this investigation, to analyze the effects of different putative regulatory motifs of OSIPA promoter, a series of 5′ deletions were fused to β-glucuronidase gene (GUS) which were stably introduced into rice and Arabidopsis. Histochemical GUS analysis of the transgenic plants revealed that a 1631 bp promoter fragment mediates maximum GUS expression at different stages of anther/pollen development. Promoter deletions to −1272, −966, −617, and −199 bp did not change the expression profile of the pollen specificity. However, the activity of promoter was reduced as the length of promoter decreased. The region between −1567 and −199 bp was found adequate to confer pollen-specific expression in both rice and Arabidopsis systems. An approximate 4-fold increase in the GUS activity was observed in the pollen of rice when compared to that of Arabidopsis. As such, the OSIPA promoter seems promising for generation of stable male-sterile lines required for the production of hybrids in rice and other crop plants.     

厚藤脱水素基因IpDHN启动子IpDHN-Pro的克隆和调控转录活性分析

为了解厚藤(Ipomoea pes-caprae)脱水素基因IpDHN (GenBank登录号:KX426069)启动子的转录活性和对非生物胁迫和植物激素ABA的响应,通过染色体步移法克隆了IpDHN的上游启动子序列IpDHN-Pro,长度为974 bp。构建IpDHN-Pro调控下GUS转基因载体,转化拟南芥(Arabidopsis thaliana)植株获得IpDHN-Pro::GUS转基因植株并进行GUS染色,验证IpDHN-Pro启动转录活性以及在氯化钠、甘露醇、ABA处理后拟南芥GUS基因表达变化。结果表明,扩增获得的IpDHN-Pro序列包含多个顺式作用元件,包括1个ABRE、3个Myb转录因子结合位点、富含TC的重复序列以及Skn-1基序等。转基因拟南芥GUS染色及qRT-PCR表明该序列可驱动GUS基因在拟南芥稳定表达,且表达受高盐、渗透压及ABA的诱导。这表明IpDHN-Pro是一个盐旱、ABA诱导的启动子序列,可应用于相关的植物抗逆遗传工程研究。     

Embryo and anther regulation of the mabinlin II sweet protein gene in Capparis masaikai Lévl

Mabinlin II is one of the major sweet proteins stored in the seeds of Capparis masaikai Lévl. Its promoter region (779 bp) located 5′ upstream of the mabinlin II gene has been isolated and named as MBL-779 (GenBank accession number, EU014073). This promoter contains two typical TATA box regions and a series of motifs related to seed-specific promoters, such as ACGT motifs, RY motif, napin motif, and G box. The MBL-779 promoter drove GUS gene to transiently express in the embryos of bean, maize, and rice seeds or to constantly express in the embryos and anthers of the transgenic Arabidopsis. The MBL-779 promoter regulated gene expression from approximately the 12th day and peaked on approximately the 16th day after flowering in Arabidopsis. The −300-bp promoter region is a minimal sequence required to functionally regulate gene expression. The CAATs at −325 to −322 bp and −419 to −416 bp and the region at −485 to −770 bp play a role in the quantitative regulation of gene expression. The RY motif, CATGAC, at −117 to −112 bp and the ACGT within the G box (CACGTG) at −126 to −123 bp positively regulate gene expression. X.-W. Hu and S.-X. Liu have the same contribution as first author.     

Characterization of the GLP13 gene promoter in Arabidopsis thaliana

In transgenic plants, for many applications it is important that the inserted genes are expressed in a tissue-specific manner. This in turn could help better understanding their roles in plant development. Germin-like proteins (GLPs) play diverse roles in plant development and defense responses. In order to understand the functions and regulation of the GLP13 gene, its promoter (762 bp) was cloned and fused with a β-glucuronidase (GUS) reporter gene for transient expression in Arabidopsis thaliana and tobacco (Nicotiana tabacum cv. K326). Histochemical analysis of the transgenic plants showed that GUS was specifically expressed in vascular bundles predominantly in phloem tissue of all organs in Arabidopsis. Further analyses in transgenic tobacco also identified similar GUS expression in the vascular bundles.     

A 286 bp upstream regulatory region of a rice anther-specific gene, OSIPP3, confers pollen-specific expression in Arabidopsis

OSIPP3 gene (coding for pectin methylesterase inhibitor protein) was isolated from a pre-pollinated inflorescence-specific cDNA library by differential screening of stage-specific libraries from Oryza sativa. OSIPP3 is present in the genome of rice as a single copy gene. OSIPP3 gene was expressed exclusively in the pre-pollinated spikelets of rice. Upstream regulatory region (URR) of OSIPP3 was isolated and a series of 5′-deletions were cloned upstream of GUS reporter gene and were used to transform Arabidopsis. OSIPP3_del1 and del2 transgenic plants showed GUS expression in root, anther and silique, while OSIPP3_del3 showed GUS activity only in anthers and siliques. Pollen-specific expression was observed in case of plants harboring OSIPP3_del4 construct. It can, therefore, be concluded that the OSIPP3 URR between ?178 and +108 bp is necessary for conferring pollen-specific expression in Arabidopsis.     

水稻胁迫相关基因OsPM1启动子的克隆与分析

依据NCBI数据库OsPM1的序列信息,采用PCR技术扩增获取OsPM1的2 100bp的启动子序列。利用PLACE预测启动子的顺式作用元件分析表明,启动子内含有大量与胁迫相关的顺式作用元件,主要有ABA响应相关元件、脱水响应元件、低温响应元件、热激响应元件和转录因子结合元件。构建OsPM1的启动子和GUS基因融合表达载体,转入拟南芥。组织化学染色分析结果显示,非生物胁迫处理前,幼苗中GUS基因表达水平很低;干旱、低温、高盐等胁迫处理后,GUS基因表达量显著升高。研究表明,OsPM1的启动子能够显著提高在干旱、高盐和低温处理后下游基因的表达水平。