Differential usage of photoreceptors for chalcone synthase gene expression during plant development

Photoregulation of chalcone synthase (CHS) mRNA accumulation was analysed in parsley (Petroselinum crispum) and mustard (Sinapis alba) plants at different developmental stages. In both species, CHS mRNA accumulation in young etiolated seedlings was primarily under phytochrome control. In leaves of adult re-etiolated plants, a UV-B photoreceptor was predominantly involved in photocontrol. The reduced red light control in mature leaves was not due to the absence of immunoreactive phytochrome. The apparent dependence of photoreceptor usage on the developmental state of the cell or organism was in accordance with observations on the photoregulation of fusion constructs between CHS promoters from parsley or mustard and the β-glucuronidase reporter gene (GUS). When tested in the parsley protoplast transient expression system, both constructs yielded the same type of photoregulation as observed for the endogenous CHS gene.     

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。     

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。     

Characterization of a chalcone synthase (CHS) flower-specific promoter from Lilium orential ��Sorbonne��

The first enzyme in the flavonoid pathway, chalcone synthase, is encoded by a gene (CHS) whose expression is normally under developmental control. In our previous studies, an 896-bp promoter region of a flower-specific CHS gene was isolated from Lilium orential ‘Sorbonne’, and designated as PLoCHS. Here, the PLoCHS promoter was fused to the β-glucuronidase (GUS) gene to characterize its spatial and temporal expression in Petunia hybrida ‘Dreams Midnight’ using an Agrobacterium-mediated leaf disc transformation method. Our results demonstrated that GUS expression was present in flowers, but reduced or absent in the other tissues (leaf and stem) examined. In petals, GUS activity reached its peak at flower developmental stage 4, and decreased at later stages. Deletion analysis indicated that even a 307-bp fragment of the PLoCHS promoter could still direct flower-specific expression. Further deletion of the region from −261 to −72 bp resulted in weak expression in different organs, including flowers, leaves and stems. This evidence combined with prediction of cis-acting elements in the PLoCHS promoter suggests that the TACPyAT box located in this promoter plays a key role in the regulation of organ-specific expression.     

High intensity and blue light regulated expression of chimeric chalcone synthase genes in transgenic Arabidopsis thaliana plants

Summary To establish a genetic system for dissection of light-mediated signal transduction in plants, we analyzed the light wavelengths and promoter sequences responsible for the light-induced expression of the Arabidopsis thaliana chalcone synthase (CHS) promoter fused to the -glucuronidase (GUS) marker gene. Transgenic A. thaliana lines carrying 1975, 523, 186, and 17 by of the CHS promoter fused to the GUS gene were generated, and the expression of these chimeric genes was monitored in response to high intensity light in mature plants and to different wavelengths of light in seedlings. Fusion constructs containing 1975 and 523 by of CHS promoter sequence behaved identically to the endogenous CHS gene under all conditions. Expression of these constructs was induced specifically in response to high intensity white light and blue light. The response to blue light was seen in the presence of the P_fr form of phytochrome. Fusion constructs containing 186 by of promoter sequence showed reduced basal levels of expression and only weak stimulation by blue light but were induced significantly by high intensity white light. These analyses showed that the expression of the A. thaliana CHS gene is responsive to a specific blue light receptor and that sequences between — 523 and — 186 by are required for optimal basal and blue light-induced expression of this gene. The experiments lay the foundation for a simple genetic screen for light response mutants.     

Gene regulation in intertypic heterokaryons of Solanum tuberosum and Nicotiana tabacum tissue protoplasts

Activities of the ß-glucuronidase (GUS) reporter enzyme were evaluated in transgenic plants, protoplasts, and intertypic heterokaryons of Solanum tuberosum and Nicotiana tabacum. With GUS under control of the promoter of the cauliflower-mosaicvirus 35S RNA gene (CaMV), activities of the enzyme were nearly evenly distributed over the tissues of plants grown in vitro. Activities in microtubers of potato plants with the reporterenzyme under control of the promoter of granule-bound starch synthase (GBSS) from S. tuberosum were higher than in leaves. The CaMV-GUS construct present in leaf protoplasts showed an increased expression in biochemical and cytochemical assays after fusion with wildtype-tuber protoplasts. Such an increase was not observed in the case of the GBSS-GUS constructs. It was concluded that nuclei in plant heterokaryons are being influenced by the fusion partner, but that repressive, trans-acting regulation factors in leaf protoplasts possibly prevent an increase of the expression of the chimeric GBSS-gene in heterokaryons.     

Efficient transformation of the medicinal mushroomGanoderma lucidum

Ganoderma lucidum is a well-known and important medicinal mushroom, but its genetic modification has not been reported. We developed an efficient procedure for isolation and regeneration of protoplasts fromG. lucidum. To construct a vector for high-level expression of heterologous genes inG. lucidum, the 1.4-kb regulatory region of the glyceraldehyde-3-phosphate dehydrogenase gene (GPD) was isolated from the genomic DNA ofLentinus edodes, and theGPD promoter was fused to the β-glucuronidase (GUS) and bialaphos resistance (bar) genes. Using the resulting construct, p301-bG1, an efficient transformation system based on electroporation was established forG. lucidum. GUS expression was observed among transformants conferring bialaphos resistance, indicating that theL. edodes GPD promoter can be used for expression of exogenous genes inG. lucidum. We also studied green fluorescent protein (GFP) as another reporter for transformation ofG. lucidum. TheL. edodes GPD promoter was fused respectively to theGFP andbar genes, and the resulting construct, p301-bg, was introduced intoG. lucidum. StableGFP expression in transformants was detectable by fluorescence microscopy, suggesting the suitability ofGFP as a reporter system in transformation of this mushroom. This is the first report of an efficient transformation system forG. lucidum using different reporters, paving the way for genetic modification of this famous medicinal mushroom.     

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。     

Stress responses in alfalfa (Medicago sativa L.). 8. Cis-elements and trans-acting factors for the quantitative expression of a bean chalcone synthase gene promoter in electroporated alfalfa protoplasts

A chimeric gene consisting of a bean (Phaseolus vulgaris L.) chalcone synthase (CHS) promoter fused to a bacterial chloramphenicol acetyltransferase (CAT) reporter gene was strongly expressed, and further induced by fungal elicitor, when electroporated into alfalfa (Medicago sativa L.) suspension cell protoplasts. Functional analysis of 5 deletions of the CHS promoter-CAT construct in these protoplasts indicated that the region between –326 and –130 contained both activator and silencer elements. Co-electroporation experiments confirmed that these cis-acting elements were binding sites for functionally active trans factors. In vitro DNase I footprinting revealed four potential binding sites for alfalfa suspension cell nuclear proteins between positions –326 and –130 of the CHS promoter. These sites mapped to regions shown to contain functional cis-acting elements on the basis of the deletion analysis. Three of these sites mapped to previously identified binding sites for bean nuclear proteins. Competition gel retardation analysis using oligonucleotide probes containing binding site sequences revealed sequence-specific binding of alfalfa nuclear proteins to an AT-rich element and a putative GT-1 factor consensus binding sequence. Our results define cis elements and their cognate trans factors functionally active in determining the quantitative expression of a defense response gene in a heterologous transient expression system.Abbreviations CAT chloramphenicol acetyltransferase - CHS chalcone synthase (EC 2.3.1.74) - PAL L-phenylalanine ammonia-lyase (EC 4.3.1.5)     

Regulation of phytochrome A mRNA abundance in parsley seedlings and cell-suspension cultures

A cDNA clone encoding the apoprotein of a parsley phytochrome was isolated and classified as parsley PHYA phytochrome, on the basis of a sequence homology comparison with all available phytochrome sequences. Red light pulses led to a phytochrome-dependent down-regulation of PHYA mRNA abundance in etiolated parsley seedlings to a level of 10–20% compared with the dark control. The PHYA mRNA abundance in a parsley cell suspension culture was also down-regulated by light pulses. Transient expression assays in parsley protoplasts showed light regulation of a chimeric pea PHYA promoter uidA-gene construct.