Functional Characterization of the Tau Class Glutathione-S-Transferases Gene (SbGSTU) Promoter of Salicornia brachiata under Salinity and Osmotic Stress

Reactive oxygen or nitrogen species are generated in the plant cell during the extreme stress condition, which produces toxic compounds after reacting with the organic molecules. The glutathione-S-transferase (GST) enzymes play a significant role to detoxify these toxins and help in excretion or sequestration of them. In the present study, we have cloned 1023 bp long promoter region of tau class GST from an extreme halophyte Salicornia brachiata and functionally characterized using the transgenic approach in tobacco. Computational analysis revealed the presence of abiotic stress responsive cis-elements like ABRE, MYB, MYC, GATA, GT1 etc., phytohormones, pathogen and wound responsive motifs. Three 5’-deletion constructs of 730 (GP2), 509 (GP3) and 348 bp (GP4) were made from 1023 (GP1) promoter fragment and used for tobacco transformation. The single event transgenic plants showed notable GUS reporter protein expression in the leaf tissues of control as well as treated plants. The expression level of the GUS gradually decreases from GP1 to GP4 in leaf tissues, whereas the highest level of expression was detected with the GP2 construct in root and stem under control condition. The GUS expression was found higher in leaves and stems of salinity or osmotic stress treated transgenic plants than that of the control plants, but, lower in roots. An efficient expression level of GUS in transgenic plants suggests that this promoter can be used for both constitutive as well as stress inducible expression of gene(s). And this property, make it as a potential candidate to be used as an alternative promoter for crop genetic engineering.     

pib基因启动子及其诱导启动性初探

将pib基因上游5.7 kb区段取代pCAMBIA1301中gus基因上游的35S启动子构建了pib拟启动区-GUS+ 35S-hpt 基因表达载体pNAR604。经农杆菌介导转化水稻成熟胚愈伤,获得了转基因抗潮霉素愈伤和36株转基因水稻植株。 转基因抗性愈伤和转基因植株根的组织化学GUS活性检测表明,光照培养下的抗性愈伤和转基因植株根不能使X-gluc显色,而暗处理24 h后的抗性愈伤和定植后转基因植株的根能使X-gluc显色。转基因植株GUS荧光定量分析结果表明,GUS表达具有器官特异性,黑暗处理前根的GUS活性最高、茎次之,分别是是叶片的7倍和3倍,叶片中仅有痕量本底。24 h黑暗处理后根、茎、叶中GUS活性都有增加,且叶片中的增加比例最大,其活性仅次于根。5 mmol/L水杨酸和0.3 mol/L NaCl叶面喷施转基因植株24 h后叶片中GUS活性分别为处理前的2.7和3.6倍。初步确定pib拟启动区是一个诱导型启动子。黑暗、水杨酸和NaCl能诱导该启动子启动活性。     

玉米19kD醇溶贮藏蛋白基因启动子种子特异性表达控制区段的分析

为研究玉米（Ｚｅａｍａｙｓ　Ｌ．）１９ｋＤ醇溶贮藏蛋白（ｚｅｉｎ）基因启动子种子特异性表达的控制区段,将全长６９４ｂｐ的启动子进行５’端缺失,共得到６个缺失突变体,长度分别为４８８ｂｐ、３７８ｂｐ、３０２ｂｐ、１５２ｂｐ、１２４ｂｐ和８５ｂｐ。将６个片段分别与报告基因ｇｕｓ连接构建成表达载体ｐＤＧＢ系列,经土壤农杆菌（Ａｇｒｏｂａｃｔｅｒｉｕｍ）介导转化,引入烟草。ＧＵＳ活性检测证明,４８８ｂｐ启动子片段能促使ｇｕｓ基因在种子中特异表达。３７８ｂｐ、３０２ｂｐ、１５２ｂｐ和１２４ｂｐ片段启动子引导的ｇｕｓ基因在烟草根、叶柄、种子中均可表达。     

Cloning and characterization of a cold inducible Pal promoter from Fagopyrum tataricum

Phenylalanine ammonia-lyase (PAL) catalyzes the first reaction in biosynthesis pathway of flavonoids and plays an important role in plant stress resistance. In this study, the 5’ flanking region of phenylalanine ammonia-lyase gene was isolated from Fagopyrum tataricum by thermal asymmetric interlaced PCR method, named PFtPal (GenBank: KF463139). To investigate the functional properties of PFtPal, we constructed a series of plant expression vectors that contained different promoter fragments resulting from nest deletions and had successfully transformed them into tobacco leaves by Agrobacterium tumefaciens. Histochemical assay of GUS suggested that PFtPal could drive GUS gene expression in leaves and roots, while GUS activity was not detected in the stem. In addition, the region of ?274 bp to ?1 bp was enough to drive normal expression of GUS gene. Low temperature treatment of transgenic tobacco plants demonstrated that PFtPal conferred cold-induced expression. Taken together, our study will help to better understand the Pal promoter, and provides a candidate promoter for molecular breeding in Fagopyrum plants.     

Analysis of the Maize 19 kD Zein Gene Promoter Fragment Driving Seed specific Expression

A deletion works of a maize 19 kD zein gene promoter in the 5'end was performed and six promoter fragments of different length were obtained. A series of expression vectors was constructed and then transferred into tobacco ( Nicotiarta tabacum L. ) plants. GUS activity assays indicated that the expression of 488 bp promoter was tissue-specific, for which GUS was active only in transgenic tobacco seeds. The other four fragments containing 378 bp,302 bp,152 bp and 124 bp also have the activity of promoter. They could drive gus gene expressed not only in seeds but also in roots and petioles.     

Analysis of a maize α-tubulin gene promoter by transient expression and in transgenic tobacco plants

The pattern of expression directed by the promoter of the maize Tub α 1 gene was investigated by analysis of chloramphenicol acetyl transferase (CAT) and β-glucuronidase (GUS) activities in transient expression experiments of maize and tobacco protoplasts. The same promoter was also investigated by histochemical GUS analysis in transgenic tobacco plants containing promoter gene fusions. As determined by histochemical tests, the Tub α 1 promoter gene preferentially directs GUS expression in regenerating root tip meristems and pollen. This pattern corresponds to the distinctive features of natural expression of the gene in maize as determined by Northern analysis. However, no expression is observed in other meristematic tissues of the transgenic tobacco plants, as in shoot apex or in coleoptiles, which is weakly detected in maize. Analysis of the regulatory properties of 5' promoter deletions showed that the proximal region of the promoter, from positions −1410 or −449 to 15 bp upstream of the ATG, is sufficient to establish the qualitative pattern of expression in transgenic tobacco plants. Deletions to positions −352 or −117 abolished the expression in roots, but not in pollen, suggesting that upstream of these positions there are elements responsible for the pattern in root. Further deletions abolished all the promoter activity, suggesting that this promoter region contains the elements essential for expression in pollen. The different patterns and levels of transient and stable expression are discussed.     

Isolation of 4-coumarate Co-A ligase gene promoter from loblolly pine (Pinus taeda) and characterization of tissue-specific activity in transgenic tobacco

We characterized promoter activity of a phenylpropanoid biosynthetic gene encoding 4-coumarate Co-A ligase (4CL), Pta4Clα, from Pinus taeda. Histochemical- and quantitative assays of GUS expression in the vascular tissue were performed using transgenic tobacco plants expressing promoter-GUS reporters. Deletion analysis of the Pta4Clα promoter showed that the region ?524 to ?252, which has two AC elements, controls the high expression levels in ray-parenchyma cells of older tobacco stems. High activity level of the promoter domain of Pta4CLα was also detected in the xylem cells under bending stress. DNA-protein complexes were detected in the reactions of the Pta4CLα promoter fragments with the nuclear proteins of xylem of P. taeda. The AC elements in the Pta4CLα promoter appeared to have individual roles during xylem development that are activated in a coordinated manner in response to stress in transgenic tobacco.     

Activity of a maize ubiquitin promoter in transgenic rice

We have used the maize ubiquitin 1 promoter, first exon and first intron (UBI) for rice (Oryza sativa L. cv. Taipei 309) transformation experiments and studied its expression in transgenic calli and plants. UBI directed significantly higher levels of transient gene expression than other promoter/intron combinations used for rice transformation. We exploited these high levels of expression to identify stable transformants obtained from callus-derived protoplasts co-transfected with two chimeric genes. The genes consisted of UBI fused to the coding regions of the uidA and bar marker genes (UBI:GUS and UBI:BAR). UBI:GUS expression increased in response to thermal stress in both transfected protoplasts and transgenic rice calli. Histochemical localization of GUS activity revealed that UBI was most active in rapidly dividing cells. This promoter is expressed in many, but not all, rice tissues and undergoes important changes in activity during the development of transgenic rice plants.     

Functional Analysis of Two Matrix Attachment Region (MAR) Elements in Transgenic Maize Plants

Matrix attachment regions (MARs) are binding sites for nuclear scaffold proteins in vitro, and are proposed to mediate the attachment of chromatin to the nuclear scaffold in vivo. Previous reports suggest that MAR elements may stabilize transgene expression. Here, we tested the effects of two maize MAR elements (P-MAR from the P1-rr gene, and Adh1-MAR from the adh1 gene) on the expression of a gusA reporter gene driven by three different promoters: the maize p1 gene promoter, a wheat peroxidase (WP) gene promoter, or a synthetic promoter (Rsyn7). The inclusion of P-MAR or Adh1-MAR on P::GUS transgene constructs did not reduce variation in the levels of GUS activity among independent transformation events, nor among the progeny derived from each event. The Adh1-MAR element did not affect GUS expression driven by the WP promoter, but did modify the spatial pattern of expression of the Rsyn7::GUS transgene. These results indicate that, in transgenic maize plants, the effects of MAR elements can vary significantly depending upon the promoter used to drive the transgene.     

Isolation and Functional Validation of Salinity and Osmotic Stress Inducible Promoter from the Maize Type-II H+-Pyrophosphatase Gene by Deletion Analysis in Transgenic Tobacco Plants

Salinity and drought severely affect both plant growth and productivity, making the isolation and characterization of salinity- or drought-inducible promoters suitable for genetic improvement of crop resistance highly desirable. In this study, a 1468-bp sequence upstream of the translation initiation codon ATG of the promoter for ZmGAPP (maize Type-II H⁺-pyrophosphatase gene) was cloned. Nine 5´ deletion fragments (D1–D9) of different lengths of the ZmGAPP promoter were fused with the GUS reporter and translocated into tobacco. The deletion analysis showed that fragments D1–D8 responded well to NaCl and PEG stresses, whereas fragment D9 and CaMV 35S did not. The D8 segment (219 bp; -219 to -1 bp) exhibited the highest promoter activity of all tissues, with the exception of petals among the D1–D9 transgenic tobacco, which corresponds to about 10% and 25% of CaMV 35S under normal and NaCl or PEG stress conditions, respectively. As such, the D8 segment may confer strong gene expression in a salinity and osmotic stress inducible manner. A 71-bp segment (-219 to -148 bp) was considered as the key region regulating ZmGAPP response to NaCl or PEG stress, as transient transformation assays demonstrated that the 71-bp sequence was sufficient for the salinity or osmotic stress response. These results enhance our understanding of the molecular mechanisms regulating ZmGAPP expression, and that the D8 promoter would be an ideal candidate for moderating expression of drought and salinity response genes in transgenic plants.     

胡杨PeNAC121基因启动子的分离鉴定和胁迫应答模式分析

为了探究NAC转录因子家族成员在胡杨（Populus euphratica）逆境胁迫中的响应和调控机制,利用PCR技术从胡杨中克隆了PeNAC121基因的启动子序列,并采用生物信息学工具对该启动子的结构特征进行了分析,最后利用该启动子驱动GUS报告基因在三倍体毛白杨（Populus tomentosa）中表达,并对获得的转基因植株采用不同胁迫处理后进行了GUS染色和酶活性定量分析。结果表明,克隆获得的PeNAC121基因的启动子长度为1 997 bp（起始密码子ATG上游）,启动序列中除了含有大量的光响应元件,还含有多个与非生物逆境胁迫和激素响应相关的元件,如低温响应元件LTR、干旱响应元件MBS、防卫和胁迫响应元件TC-rich repeats、脱落酸（ABA）响应元件、以及赤霉素（GA）响应元件等。基因的组织表达模式检测结果显示,PeNAC121基因主要在茎中表达,在根和叶中的表达较少。GUS组织化学染色和酶活性检测结果表明,胡杨PeNAC121启动子显著受到NaCl、甘露醇、ABA和4 ℃低温的诱导表达。由上述结果推测PeNAC121基因与胡杨的逆境胁迫应答密切相关,表明该基因的启动子是一个能够应答多种逆境胁迫的诱导型启动子。本研究为阐明PeNAC121基因在胡杨逆境响应和调控中的作用机制提供理论参考。     

Fusion of the inducible promoter of the PR-1a gene to the Activator transposase gene can transactive excision of a non-autonomous transposable element by external and by internal stimuli

The open reading frame coding for the transposase gene of the maize transposon Activator (Ac) was expressed in transgenic tobacco plants under the control of the promoter of the inducible gene for pathogenesis-related protein 1a (PR-1a). Excision of a non-autonomous transposable element (Ds) from chimeric β-glucuronidase (GUS) and luciferase reporter gene constructs was employed to analyze the induction of the Ac transposase by external and by internal stimuli. Applying the GUS histochemical assay, Ds excision events were detected in leaves, stems, and roots after treatment of regenerating shoots with salicylic acid (SA). Varying the SA induction procedure led to different Ds excision patterns in leaves and in roots. Furthermore, Ds excision events were also observed in non-treated, older transgenic plants in the green leaves, but not in germinal cells. Thus, the PR-1a promoter/Ac transposase gene fusion, together with the improved methods for induction of this chimeric gene, may provide a valuable tool for studying basic mechanisms of Ac transposition and for developing modified transposable element systems suitable for gene tagging in higher plants.     

海州香薷(Elsholtzia haichowensis Sun)细胞壁转化酶基因启动子(EhcwINVP)的克隆及活性分析

以海州香薷基因组DNA为模板,通过hiTAIL-PCR和walking技术扩增得到其细胞壁转化酶基因启动子(Ehcw INVP)片段,长度为1727 bp。生物信息学分析结果表明,该启动子片段中含有多个对脱落酸、赤霉素、细胞分裂素等激素以及对干旱、低温、重金属铜等逆境胁迫响应相关的顺式作用元件。将通过克隆得到的Ehcw INVP序列替换p CAMBIA1301载体上驱动GUS报告基因表达的Ca MV35S启动子序列,构建Ehcw INVP融合GUS的植物表达载体Ehcw INVP::GUS。转基因拟南芥植株的组织化学分析结果表明,海州香薷细胞壁转化酶基因启动子序列具有驱动GUS基因表达的功能,且在10μmol/L铜胁迫下,转基因拟南芥植株叶和根中的GUS活性分别约是对照组的1.7倍和1.5倍。     

The Promoter of a Metallothionein-Like Gene from the Tropical Tree Casuarina Glauca is Active in Both Annual Dicotyledonous and Monocotyledonous Plants

A chimeric gene consisting of the -glucuronidase (gusA) reporter gene under the control of the metallothionein-like promoter cgMT1 from the tropical tree Casuarina glauca was introduced into Nicotiana tabacum via Agrobacterium tumefaciens and into Oryza sativa by particle bombardment. The strongest histochemical staining for GUS activity was observed in the root system of the transgenic plants, and especially in lateral roots. In contrast, a relatively low level of reporter gene expression was seen in the aerial tissues and GUS staining was located mainly in the plant vascular system. The average ratio of GUS activity between root and leaf was found to be 13:1 in tobacco and 1.5:1 in rice. The pattern of cgMT1 promoter activity in floral organs was found to be different in tobacco and rice. High levels of gusA gene expression were detected in the ovules, pollen grains and tapetum, whereas in rice PcgMT1 directs expression to the vascular system of the floral organs. These results suggest that PcgMT1 is potentially useful in molecular breeding to express genes of interest whose products are preferentially needed in roots.     

玉米胚胎发生后期丰富蛋白基因的启动子克隆与功能验证

该研究在生物信息学分析的基础上,克隆玉米胚胎发生后期丰富蛋白基因(MGL3)的启动子序列(pMGL3),进行非生物逆境应答元件分析以及实时定量PCR验证其非生物逆境胁迫响应特性,构建了pMGL3启动子驱动报告基因(GUS)表达载体,基因枪法转化玉米愈伤组织,通过GUS染色验证pMGL3启动子在非生物逆境胁迫下的驱动活性。再根据启动子序列分析结果,去除不同的顺式作用元件,构建不同长度pMGL3启动子驱动报告基因GUS表达载体,农杆菌介导法转化烟草叶盘,以确定pMGL3启动子的最短活性序列。结果显示:pMGL3启动子长1 554bp,存在多种与非生物逆境胁迫应答相关的调控元件,在干旱、高盐、低温胁迫及脱落酸、乙烯诱导下驱动MGL3基因增量表达,用以驱动GUS基因转化玉米愈伤组织,在高渗、高盐、低温胁迫及脱落酸诱导下具有驱动活性,且截短至325bp仍可保持驱动活性。研究表明,pMGL3启动子的确有非生物逆境诱导启动活性,进一步验证其作用机理后可运用于玉米抗逆转基因研究。