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.     

Transcriptional regulation of the gene for prothoracicotropic hormone in the silkworm, <Emphasis Type="Italic">Bombyx mori</Emphasis>

Prothoracicotropic hormone (PTTH) is one of key players in regulation of insect growth, molting, metamorphosis, diapause, and is expressed specifically in the two pairs of lateral PTTH-producing neurosecretory cells in the brain. Analysis of cis-regulatory elements of the PTTH promoter might elucidate the regulatory mechanism controlling PTTH expression. In this study, the PTTH gene promoter of Bombyx mori (Bom-PTTH) was cloned and sequenced. The cis-regulatory elements in Bom-PTTH gene promoter were predicted using Matinspector software, including myocyte-specific enhancer factor 2, pre-B-cell leukemia homeobox 1, TATA box, etc. Transient transfection assays using a series of fragments linked to the luciferase reporter gene indicated that the fragment spanning −110 to +33 bp of the Bom-PTTH promoter showed high ability to support reporter gene expression, but the region of +34 to +192 bp and −512 to −111 bp repressed the promoter activity in the BmN and Bm5 cell lines. Electrophoretic mobility shift assays demonstrated that the nuclear protein could specifically bind to the region spanning −124 to −6 bp of the Bom-PTTH promoter. Furthermore, we observed that the nuclear protein could specifically bind to the −59 to −30 bp region of the Bom-PTTH promoter. A classical TATA box, TATATAA, localized at positions −47 to −41 bp, which is a potential site for interaction with TATA box binding protein (TBP). Mutation of this TATA box resulted in no distinct binding band. Taken together, TATA box was involved in regulation of PTTH gene expression in B. mori.     

The oil palm metallothionein promoter contains a novel AGTTAGG motif conferring its fruit-specific expression and is inducible by abiotic factors

The 1,053-bp promoter of the oil palm metallothionein gene (so-called MSP1) and its 5′ deletions were fused to the GUS reporter gene, and analysed in transiently transformed oil palm tissues. The full length promoter showed sevenfold higher activity in the mesocarp than in leaves and 1.5-fold more activity than the CaMV35S promoter in the mesocarp. The 1,053-bp region containing the 5′ untranslated region (UTR) gave the highest activity in the mesocarp, while the 148-bp region was required for minimal promoter activity. Two positive regulatory regions were identified at nucleotides (nt) −953 to −619 and −420 to −256 regions. Fine-tune deletion of the −619 to −420 nt region led to the identification of a 21-bp negative regulatory sequence in the −598 to −577 nt region, which is involved in mesocarp-specific expression. Gel mobility shift assay revealed a strong interaction of the leaf nuclear extract with the 21-bp region. An AGTTAGG core-sequence within this region was identified as a novel negative regulatory element controlling fruit-specificity of the MSP1 promoter. Abscisic acid (ABA) and copper (Cu²⁺) induced the activity of the promoter and its 5′ deletions more effectively than methyl jasmonate (MeJa) and ethylene. In the mesocarp, the full length promoter showed stronger inducibility in response to ABA and Cu²⁺ than its 5′ deletions, while in leaves, the −420 nt fragment was the most inducible by ABA and Cu²⁺. These results suggest that the MSP1 promoter and its regulatory regions are potentially useful for engineering fruit-specific and inducible gene expression in oil palm.     

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.     

A strong promoter, PMagpd, provides a tool for high gene expression in entomopathogenic fungus, Metarhizium acridum

A glyceraldehyde-3-phosphate dehydrogenase gene (gpd) promoter (PMagpd) was obtained from Metarhizium acridum and its active region analyzed by 5′-deletion strategy using β-glucuronidase (GUS) as a reporter. Sequence analysis revealed that typical regulatory elements of PMagpd were included in the 1.7 kb region upstream of the start codon of the Magpd gene. Deletion of the region from −1,691 bp to −1,463 bp, where the gpd box is harbored, did not significantly affect the PMagpd activity. Deletions of the regions upstream of −946 bp and upstream of −684 bp caused a major decrease of GUS activity. Compared with PgpdA (2.2 kb) in Aspergillus nidulans, PMagpd (1.4 kb) had a shorter sequence and significantly higher activity in M. acridum. This study provides an applicable promoter for over-expression of target genes in M. acridum.     

Identification and preliminary analysis of a new PCP promoter from Brassica rapa ssp. chinensis

The promoter of Brassica campestris Male Fertile 5 (BcMF5), a pollen coat protein member, class A (PCP-A) gene family, was isolated from Brassica rapa L. ssp. chinensis Makino (Chinese cabbage-pak-choi) by Thermal Asymmetric Interlaced Polymerase Chain Reaction (TAIL-PCR). Sequence analysis suggested that the 605-bp promoter of BcMF5 appears to be a pollen promoter. In an attempt to confirm the promoter activity of BcMF5 promoter, −609 to +3 bp and −377 to +3 bp fragments of the upstream sequence of BcMF5 were inserted at the site upstream of the coding region of the uidA gene in the sense orientation to construct two deletion expression vectors. Transient expression analysis in onion epidermal cells by particle bombardment showed that both −609 to +3 bp and −377 to +3 bp fragments of BcMF5 promoter were capable of driving β-glucuronidase gene expression. Furthermore, by Agrobacterium-mediated genetic transformation method, Arabidopsis transgenic Kan^R plants were obtained. GUS assay analysis revealed that the promoter of BcMF5 induced gene expression at the early stage of anther development and drove high levels of GUS expression in anther walls, upper regions of petals, pollen, and pollen tubes in the middle and late stage of anther development, but did not drive any expression in sepals and pistils.     

Combinatorial Interactions of Two <Emphasis Type="Italic">cis-</Emphasis>Acting Elements,AT-Rich Regions and HSEs,in the Expression of Tomato <Emphasis Type="Italic">Lehsp23.8</Emphasis> upon Heat and Non-Heat Stresses

We previously cloned and analyzed the 1,893-bp promoter region (−1,915 to −23) of the tomato (Lycopersicon esculentum) Lehsp23.8 gene, whose expression is induced by treatment with high or low temperatures, heavy metal, or abscisic acid (ABA). In our present work, we examined how this expression is regulated. A comprehensive quantitative promoter deletion and base-substitution analysis was conducted under various environmental conditions. The proximal region (−565 to −23 bp) of the Lehsp23.8 promoter harbors cis-regulatory elements that conferred high levels of heat-induced expression in transgenic tobacco. Mutation of the five proximal HSEs (HSE1 to 5) of that promoter led to an absence of heat inducibility. The AT-rich regions between −255 bp and −565 bp (AT-rich1 to 4) in the promoter might serve as enhancers for such heat-induced expression. Deletion and HSE mutation analysis indicated that other cis-acting elements also function in response to low temperature, heavy metal, and ABA and that HSE1 to 5 act at least as cis-acting elements in multiple-stress responses of Lehsp23.8. These results reveal that those five proximal HSEs and AT-rich regions function interdependently in the expression of Lehsp23.8 in response to non-heat stresses. Furthermore, the putative elements CRT/DRE, AP-1, and ABRE in that promoter are not required for multiple-stress induction.     

Nuclear factors GT-1 and 3AF1 interact with multiple sequences within the promoter of the Tdc gene from Madagascar periwinkle: GT-1 is involved in UV light-induced expression.

Plant secondary metabolites of the terpenoid indole alkaloid (TIA) class comprise several compounds with pharmaceutical applications. A key step in the TIA biosynthetic pathway is catalysed by the enzyme tryptophan decarboxylase (TDC), which channels the primary metabolite tryptophan into TIA metabolism. In Catharanthus roseus (Madagascar periwinkle), the Tdc gene is expressed throughout plant development. Moreover, Tdc gene expression is induced by external stress signals, such as fungal elicitor and UV light. In a previous study of Tdc promoter architecture in transgenic tobacco it was shown that the −538 to −112 region is a quantitative determinant for the expression level in different plant organs. Within this sequence one particular region (−160 to −99) was identified as the major contributor to basal expression and another region (−99 to −37) was shown to be required for induction by fungal elicitor. Here, the in vitro binding of nuclear factors to the −572 to −37 region is described. In extracts from tobacco and C. roseus, two binding activities were detected that could be identified as the previously described nuclear factors GT-1 and 3AF1, based on their mobility and binding characteristics. Both factors appeared to interact with multiple regions in the Tdc promoter. Mutagenesis of GT-1 binding sites in the Tdc promoter did not affect the basal or elicitor-induced expression levels. However, induction of the Tdc promoter constructs by UV light was significantly lower, thereby demonstrating a functional role for GT-1 in the induction of Tdc expression by UV light. Received: 2 February 1998 / Accepted: 5 March 1999     

Functional characterization of the pollen-specific <Emphasis Type="Italic">SBgLR</Emphasis> promoter from potato (<Emphasis Type="Italic">Solanum tuberosum</Emphasis> L.)

SBgLR (Solanum tuberosum genomic lysine-rich) gene was isolated from a potato genomic library using SB401 (S. berthaultii 401) cDNA as probe. RT-PCR analysis of SBgLR gene expression profile and microscopic analysis of green fluorescent protein (GFP) expression in tobacco plants transformed with SBgLR promoter-GFP reporters indicate that SBgLR is a pollen-specific gene. A series of 5′deletions of SBgLR promoter were fused to the β-glucuronidase (GUS) gene and stably introduced into tobacco plants. Histochemical and quantitative assays of GUS expression in transgenic plants allowed us to localize an enhancer of SBgLR promoter to the region −345 to −269 relative to the translation start site. This 76 bp (−345 to −269) fragment enhanced GUS expression in leaves, stems and roots when fused to −90/+6 CaMV 35S minimal promoter. Deletion analysis showed that a cis-element, which can repress gene expression in root hairs, was located in the region −345 to −311. Further study indicated that the −269 to −9 region was sufficient to confer pollen-specific expression of GFP when fused to CaMV 35S enhancer. Electronic supplementary material The online version of this article (doi:) contains supplementary material, which is available to authorized users. Authors Zhihong Lang and Peng Zhou contributed equally to this work.     

Molecular cloning and characterization of the promoter for the multiple stress-inducible gene <Emphasis Type="Italic">BjCHI1</Emphasis> from <Emphasis Type="Italic">Brassica juncea</Emphasis>

We have previously isolated a Brassica juncea cDNA encoding a novel chitinase BjCHI1 with two chitin-binding domains (Zhao and Chye in Plant Mol Biol 40:1009–1018, 1999). The expression of BjCHI1 was highly inducible by methyl jasmonate (MeJA) treatment, wounding, caterpillar feeding, and pathogenic fungal infection. These observations suggest that the promoter of BjCHI1 gene might contain specific cis-acting elements for stress responses. Here, we report the cloning and characterization of the BjCHI1 promoter. A 1,098 bp BjCHI1 genomic DNA fragment upstream of the ATG start codon was isolated by PCR walking and various constructs were made by fusing the BjCHI1 promoter or its derivatives to β-glucuronidase reporter gene. The transgenic Arabidopsis plants showed that the BjCHI1 promoter responded to wounding and MeJA treatment, and to treatments with either NaCl or polyethyleneglycol (PEG 6000), indicating that the BjCHI1 promoter responses to both biotic and abiotic stresses. A transient gene expression system of Nicotiana benthamiana leaves was adopted for promoter deletion analysis, and the results showed that a 76 bp region from −695 to −620 in the BjCHI1 promoter was necessary for MeJA-responsive expression. Furthermore, removal of a conserved T/G-box (AACGTG) at −353 to −348 of the promoter greatly reduced the induction by MeJA. This is the first T/G-box element identified in a chitinase gene promoter. Gain-of-function analysis demonstrated that the cis-acting element present in the 76 bp region requires coupling with the T/G-box to confer full magnitude of BjCHI1 induction by MeJA.