Heat shock elements are involved in heat shock promoter activation during tobacco seed maturation

The soybean Gmhsp17.3-B heat shock promoter is developmentally regulated in transgenic tobacco, as indicated by the constitutive expression of a -glucuronidase reporter in seeds [16]. In this paper, we show that both the heat shock promoter-driven -glucuronidase activity and the mRNA of the endogenous Nthsp18P gene accumulate coincident with the onset of seed desiccation. Deletions of the soybean Gmhsp17.3-B promoter, encompassing the heat shock element (HSE)-containing regions, revealed a co-localization of sequences responsible for heat induction and developmental expression. Moreover, synthetic HSEs fused to a TATA box sequence had the potential to stimulate the developmental expression of a GUS reporter gene in seeds of transgenic plants.     

A rapid<Emphasis Type="Italic">Agrobacterium</Emphasis>-mediated<Emphasis Type="Italic">Arabidopsis thaliana</Emphasis> transient assay system

Stable transformation ofArabidopsis thaliana is a lengthy process that involves up to 3 mo of plant growth and seed selection. We have developed a rapid, 3-wk transient assay system to test the functionality ofcis-regulatory regions controlling expression of a reporter gene in plants before undertaking stable transformation. Two-week-oldArabidopsis seedlings were vacuum-infiltrated withAgrobacterium tumefaciens cultures carrying various upstream regulatory regions controllinguidA (β-glucuronidase [GUS]) expression. Seedlings were fixed and stained for GUS activity 3–5 d following infiltration. Regulatory regions tested in this system include the cauliflower mosaic virus (CaMV)35S promoter, the upstream regulatory region of ribosomal protein geneL23A-1, and a temperature-inducible regulatory region (HSP101B) also fromArabidopsis. The percentage of seedlings positive for GUS activity varied depending on the construct used, with the CaMV35S promoter producing the highest number of GUS-positive seedlings. Temperature induction treatments elicited increased GUS expression in seedlings transformed with theHSP101B regulatory region. Regardless of construct, GUS expression levels were higher in seedlings collected 5 d followingAgrobacterium infiltration than those collected 3–4 d postinfiltration.     

Stress-induced curcin-L promoter in leaves of <Emphasis Type="Italic">Jatropha curcas</Emphasis> L. and characterization in transgenic tobacco

Ribosome-inactivating proteins (RIPs) represent a type of protein that universally inactivates the ribosome thus inhibiting protein biosynthesis. Curcin-L was a type I RIP found in Jatropha curcas L.. Its expression could be activated in leaves by treatments with abscisic acid, salicylic acid, polyethylene glycol, temperature 4, 45°C and ultraviolet light. A 654 bp fragment of a 5′ flanking region preceding the curcin-L gene, designated CP2, was cloned from the J. curcas genome and its expression pattern was studied via the expression of the β-glucuronidase (GUS) gene in transgenic tobacco. Analysis of GUS activities showed that the CP2 was leaf specific, and was able to drive the expression of the reporter gene under stress-induction conditions. Analysis of a series of 5′-deletions of the CP2 suggested that several promoter motifs were necessary to respond to environmental stresses.     

Tomato spotted wilt virus (TSWV) infection of Physcomitrella patens gametophores

Following mechanical inoculation of the moss Physcomitrella patens (Hedw.) B.S.G. with Tomato spotted wilt virus (TSWV), the virus encoded N nucleocapsid protein was detected in gametophores harvested 11 and 29 dpi and the non-structural NSm movement protein was observed 29 dpi. The detection of both viral proteins presumes that P. patens could serve as a new lab–host for TSWV, allowing reverse genetics by gene targeting to elucidate the role of specified molecular virus–host interactions.     

Isolation and Characterization of a Curcin Promoter from <Emphasis Type="Italic">Jatropha curcas</Emphasis> L. and Its Regulation of Gene Expression in Transgenic Tobacco Plants

Ribosome-inactivating proteins (RIPs) represent those proteins that universally depurinate conserved α-sarcin loops of large rRNAs. In this study, a 0.6-kb fragment of a 5′ flanking region preceding a curcin gene, encoding a type I RIP curcin, of Jatropha curcas L. endosperm was cloned, and its regulation of expression of the β-glucuronidase (GUS) reporter gene was investigated in transgenic tobacco. Analysis of GUS activities showed that the 0.6-kb flanking fragment of the curcin gene was sufficient to drive the GUS reporter gene expression in tobacco seed. The activity of this flanking fragment was analyzed at different stages of seed development. Histochemical localization of GUS activity indicated that the promoter was specifically active in the endosperm tissue of the dicotyledonous tobacco embryo. Moreover, this activity was first initiated at the heart-shaped embryonic stage during seed development.     

Expression of three <Emphasis Type="Italic">Arabidopsis</Emphasis> cytokinin oxidase/dehydrogenase promoter::GUS chimeric constructs in tobacco: response to developmental and biotic factors

Expression patterns of three Arabidopsis thaliana cytokinin oxidase/dehydrogenase promoter::GUS reporter fusions were investigated in tobacco plants. While cytokinin oxidase/dehydrogenase promoter 2 showed no expression in tobacco, the cytokinin oxidase/dehydrogenase promoters 3 and 4 were active in various tissues throughout development of the tobacco. Recently, the 1452 bp promoter region of AtCKX3 was reported as almost inactive in Arabidopsis. In contrast, the 1627 bp DNA fragment preceding the AtCKX3 coding region drove expression of the reporter GUS gene in various tobacco tissues. The promoter was mainly expressed in tobacco leaves and roots during early stages of development but also later in young flower buds as well as in pollen grains. The construct was particularly active before (hypocotyl region) and during (vascular system) lateral root initiation, supporting the idea of an inhibitory role of active cytokinins in the process of root initiation. The cytokinin oxidase/dehydrogenase promoter 4::GUS fusion in tobacco was shown to share some common (but weaker) expression patterns with promoter 3, namely in the leaves and pollen, but also conferred specific expression in tobacco root cap cells and trichomes. In addition, the response of cytokinin oxidase/dehydrogenase promoter::GUS reporter fusions to infection with the leafy gall-forming bacteria Rhodococcus fascians was examined. While an avirulent strain of R. fascians did not induce expression of any of the cytokinin oxidase/dehydrogenase promoters, the cytokinin oxidase/dehydrogenase promoter 3::GUS fusion was specifically induced at the site of infection when plants were challenged with a virulent strain of R. fascians, providing a possible explanation for the lack of significantly elevated cytokinin concentrations in tissues infected with virulent strains of R. fascians.This revised version was published online in August 2005 with some black and white figures replaced by coloured figures.     

Authentic seed-specific activity of the <Emphasis Type="Italic">Perilla</Emphasis> oleosin 19 gene promoter in transgenic <Emphasis Type="Italic">Arabidopsis</Emphasis>

The Perilla (Perilla frutescens L. cv. Okdong) oleosin gene, PfOle19, produces a 19-kDa protein that is highly expressed only in seeds. The activity of the −2,015 bp 5′-upstream promoter region of this gene was investigated in transgenic Arabidopsis plants using the fusion reporter constructs of enhanced green fluorescent protein (EGFP) and β-glucuronidase (GUS). The PfOle19 promoter directs Egfp expression in developing siliques, but not in leaves, stems or roots. In the transgenic Arabidopsis, EGFP fluorescence and histochemical GUS staining were restricted to early seedlings, indehiscent siliques and mature seeds. Progressive 5′-deletions up to the −963 bp position of the PfOle19 promoter increases the spatial control of the gene expression in seeds, but reduces its quantitative levels of expression. Moreover, the activity of the PfOle19 promoter in mature seeds is 4- and 5-fold greater than that of the cauliflower mosaic virus 35S promoter in terms of both EGFP intensity and fluorometric GUS activity, respectively.     

<Emphasis Type="Italic">Pythium</Emphasis> infection activates conserved plant defense responses in mosses

The moss Physcomitrella patens (P. patens) is a useful model to study abiotic stress responses since it is highly tolerant to drought, salt and osmotic stress. However, very little is known about the defense mechanisms activated in this moss after pathogen assault. In this study, we show that P. patens activated multiple and similar responses against Pythium irregulare and Pythium debaryanum, including the reinforcement of the cell wall, induction of the defense genes CHS, LOX and PAL, and accumulation of the signaling molecules jasmonic acid (JA) and its precursor 12-oxo-phytodienoic acid (OPDA). However, theses responses were not sufficient and infection could not be prevented leading to hyphae colonization of moss tissues and plant decay. Pythium infection induced reactive oxygen species production and caused cell death of moss tissues. Taken together, these data indicate that Pythium infection activates in P. patens common responses to those previously characterized in flowering plants. Microscopic analysis also revealed intracellular relocation of chloroplasts in Pythium-infected tissues toward the infection site. In addition, OPDA, JA and its methyl ester methyl jasmonate induced the expression of PAL. Our results show for the first time JA and OPDA accumulation in a moss and suggest that this defense pathway is functional and has been maintained during the evolution of plants. Authors Juan Pablo Oliver and Alexandra Castro contributed equally to this work.     

Investigation of the endosperm-specific sucrose synthase promoter from rice using transient expression of reporter genes in guar seed tissue

We report the investigation of an endosperm-specific promoter from the rsus3 gene from rice (Oryza sativa). The promoter was characterized by deletion analysis and transient expression in guar (Cyamopsis tetragonoloba) seed-tissue. Transient expression was monitored by histochemical GUS assay, and quantitative dual reporter assays comprising firefly luciferase as a test reporter, and Renilla luciferase and GUS as reference reporters. These revealed high expression levels of the reporter genes directed by the rsus3 promoter in guar endosperm. Specificity for this tissue in seeds was apparent from a virtual absence of reporter activity in guar cotyledons. Removal of a putative intron region only slightly raised the expression level, whereas duplication of the minimal promoter region, in a tandem-repeat rsus3 promoter construct, retained endosperm specificity in guar, and displayed three times the reporter activity observed with the single copy construct.     

High-efficiency <Emphasis Type="Italic">Agrobacterium rhizogenes</Emphasis>-mediated transformation of heat inducible sHSP18.2-GUS in <Emphasis Type="Italic">Nicotiana tabacum</Emphasis>

The chimerical gene, Arabidopsis thaliana sHSP18.2 promoter fused to E. coli gusA gene, was Agrobacterium rhizogenes-mediated transformed into Nicotiana tabacum as a heat-regulatable model, and the thermo-inducible expression of GUS activity in N. tabacum transgenic hairy roots was profiled. An activation of A. rhizogenes with acetosyringone (AS) before cocultured with tobacco's leaf disc strongly promoted transgenic hairy roots formation. Transgenic hairy roots formation efficiency of A. rhizogenes precultured with 200 μM AS supplementation was 3.1-fold and 7.5-fold, respectively, compared to the formation efficiency obtained with and without AS supplementation in coculture. Transgenic hairy roots transformed with different AS concentration exhibited a similar pattern of thermo-inducibility after 10 min to 3 h heat treatments detected by GUS expression. The peak of expressed GUS specific activity, 399,530 pmol MUG per mg total protein per min, of the transgenic hairy roots was observed at 48 h after 3 h of 42°C heat treatment, and the expressed GUS specific activity was 7–26 times more than that reported in A. thaliana, tobacco BY-2 cells and Nicotiana plumbaginifolia. Interference caused by AS supplementation on the growth of transgenic hairy roots, time-course of GUS expression and its expression level were not observed.     

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.     

In vivo visualization of F-actin structures during the development of the moss Physcomitrella patens

* The 'in planta' visualization of F-actin in all cells and in all developmental stages of a plant is a challenging problem. By using the soybean heat inducible Gmhsp17.3B promoter instead of a constitutive promoter, we have been able to label all cells in various developmental stages of the moss Physcomitrella patens, through a precise temperature tuning of the expression of green fluorescent protein (GFP)-talin. * A short moderate heat treatment was sufficient to induce proper labeling of the actin cytoskeleton and to allow the visualization of time-dependent organization of F-actin structures without impairment of cell viability. * In growing moss cells, dense converging arrays of F-actin structures were present at the growing tips of protonema cell, and at the localization of branching. Protonema and leaf cells contained a network of thick actin cables; during de-differentiation of leaf cells into new protonema filaments, the thick bundled actin network disappeared, and a new highly polarized F-actin network formed. * The controlled expression of GFP-talin through an inducible promoter improves significantly the 'in planta' imaging of actin.     

The Brassica napus extA promoter: a novel alternative promoter to CaMV 35S for directing transgene expression to young stem tissues and load bearing regions of transgenic apple trees (Malus pumila Mill.)

The Brassica napus extensin A gene is highly expressed in root tissue of oilseed rape. In an attempt to identify an effective root-specific promoter for biotechnological applications, we have examined the ability of the –940 extA promoter to drive expression of the gusA reporter gene in the vegetative tissues of apple (Malus pumila Mill cv. Greensleeves). Transgenic apple lines were produced by Agrobacterium tumefaciens-mediated transformation and GUS activity was analysed both quantitatively and qualitatively. The extA promoter was active in all tissues of young plants in all 15 clones examined. However Southern blot data suggested that only a proportion of the population contained the entire promoter and that others had suffered deletions of unknown length. This may have contributed to the variation seen in the quantitative and qualitative expression of GUS. Specific GUS activity was highest in the stems where it approached, and in some clones, exceeded that using the constitutive CaMV 35S promoter. Histochemical analysis confirmed that GUS was localised to tissues involved in structural support of the stem. Staining was particularly intense at nodal junctions where high tensile stress is exerted on the tissues. Maturing phloem tissues showed localisation of expression to the phloem parenchyma cells and phloem fibres. Transverse sections of the root revealed staining of primary procambial tissues including the young endodermis but no staining was seen in the cortex. Although the –940 extA promoter is clearly not root-specific in apple, it is likely to have useful biotechnological applications in tree species.     

Anaerobic induction of the maize<Emphasis Type="Italic"> GapC4</Emphasis> promoter in poplar leaves requires light and high CO<Subscript>2</Subscript>

The maize (Zea mays L.) glyceraldehyde-3-phosphate dehydrogenase gene 4 (GapC4) promoter confers anaerobic gene expression in tobacco (Nicotiana tabacum L.), potato (Solanum tuberosum L.) and Arabidopsis thaliana (L.) Heynh. Here we have investigated its expression in hybrid poplar (Populus tremula × P. alba). Our results show that the promoter is not expressed in leaves and stems under normoxic conditions while anaerobiosis induces reporter gene expression in leaves up to a level observed for the STLS-1 promoter from potato that is shown to confer leaf-specific gene expression in transgenic poplar. Anaerobic induction is cell autonomous and requires a CO₂ atmosphere and light. As in tobacco, the GapC4 promoter in poplar is wound inducible. The induction by CO₂ and light may reflect a natural situation because flooding, a natural cause of anaerobiosis, is often accompanied by high CO₂ concentrations in the floodwater. Our results show that the GapC4 promoter is suitable as an anaerobic reporter and as an inducible gene expression system in poplar.Abbreviations CaMV cauliflower mosaic virus - GapC4 glyceraldehyde-3-phosphate dehydrogenase gene 4 - GUS -glucuronidase - 4-MU methylumbelliferone - STLS-1 stem- and leaf-specific promoter 1     

The <Emphasis Type="Italic">Arxula adeninivorans</Emphasis><Emphasis Type="Italic">ATAL</Emphasis> gene encoding transaldolase-gene characterization and biotechnological exploitation

The yeast Arxula adeninivorans provides an attractive expression platform and can be exploited as gene source for biotechnologically interesting proteins. In the following study, a striking example for the combination of both aspects is presented. The transaldolase-encoding A. adeninivorans ATAL gene, including its promoter and terminator elements, was isolated and characterized. The gene includes a coding sequence of 963 bp encoding a putative 321 amino acid protein of 35.0 kDa. The enzyme characteristics analyzed from isolates of native strains and recombinant strains overexpressing the ATAL gene revealed a molecular mass of ca. 140 kDa corresponding to a tetrameric structure, a pH optimum of ca. 5.5, and a temperature optimum of 20°C. The preferred substrates for the enzyme include d-erythrose-4-phosphate and d-fructose-6-phosphate, whereas d-glyceraldehyde is not converted. The ATAL expression level under salt-free conditions was observed to increase in media supplemented with 5% NaCl rendering the ATAL promoter attractive for moderate heterologous gene expression under high-salt conditions. Its suitability was assessed for the expression of a human serum albumin (HSA) reporter gene.