Structural and functional analysis of new plant promoter pro-SmAMP1 from <Emphasis Type="Italic">Stellaria media</Emphasis>

The nucleotide sequence of a fragment of the promoter region of pro-SmAMP1 gene, having a length of 1257 bp and encoding antifungal peptides, was determined in chickweed (Stellaria media (L.) Vill.). Computer analysis of the nucleotide sequence revealed a number of cis-elements that are typical strong plant promoters. Five 5′-deletion variants were created taking into account the distribution of cis-elements:–1235,–771,–714,–603, and–481 bp of pro-SmAMP1 gene promoter, which were fused to the coding region of the uidA reporter gene in pCambia1381Z plant expression vector. The efficacy of pro-SmAMP1 promoter deletion variants was determined by transient expression in plants of Nicotiana benthamiana and using sequential generations of transgenic Nicotiana tabacum plants. It was found that the levels of GUS reporter protein activity in the extracts from transgenic and agroinfiltrated plants using all deletion variants of pro-SmAMP1 gene promoter were 3–5 times higher than those of 35S CaMV viral promoter. The highest activity of GUS protein was observed in the leaves of transgenic tobacco plants and closely correlated with the mRNA level of encoding gene. The levels of GUS activity did not differ significantly among 11 independent homozygous lines of T₂ generation of N. tabacum plants with different deletion variants of pro-SmAMP1 promoter. The results give reason to assume that all deletion variants of pro-SmAMP1 promoter provide stable and high level of expression of controlled genes. The shortest deletion variant–481 bp of pro-SmAMP1 promoter should be viewed as a potentially strong plant promoter for the genetic engineering of plants.     

Expression of plant antimicrobial peptide <Emphasis Type="Italic">pro-SmAMP2</Emphasis> gene increases resistance of transgenic potato plants to <Emphasis Type="Italic">Alternaria</Emphasis> and <Emphasis Type="Italic">Fusarium</Emphasis> pathogens

The chickweed (Stellaria media L.) pro-SmAMP2 gene encodes the hevein-like peptides that have in vitro antimicrobial activity against certain harmful microorganisms. These peptides play an important role in protecting the chickweed plants from infection, and the pro-SmAMP2 gene was previously used to protect transgenic tobacco and Arabidopsis plants from phytopathogens. In this study, the pro-SmAMP2 gene under control of viral CaMV35S promoter or under control of its own pro-SmAMP2 promoter was transformed into cultivated potato plants of two cultivars, differing in the resistance to Alternaria: Yubiley Zhukova (resistant) and Skoroplodny (susceptible). With the help of quantitative real-time PCR, it was demonstrated that transgenic potato plants expressed the pro-SmAMP2 gene under control of both promoters at the level comparable to or exceeding the level of the potato actin gene. Assessment of the immune status of the transformants demonstrated that expression of antimicrobial peptide pro-SmAMP2 gene was able to increase the resistance to a complex of Alternaria sp. and Fusarium sp. phytopathogens only in potato plants of the Yubiley Zhukova cultivar. The possible role of the pro-SmAMP2 products in protecting potatoes from Alternaria sp. and Fusarium sp. is discussed.     

Transformation and evaluation of different transgenic lines for Glyphosate tolerance and cane borer resistance genes in sugarcane (<Emphasis Type="Italic">Saccharum officinarum</Emphasis> L.)

The aim of this study was to ensure the systematic protein expression of two genes (GTG and Cry1Ac) under the influence of two different constitutive promoters i.e. Ubiquitin-1 and CaMV 35S promoters in different sugarcane lines. PCR amplification of GTG and Cry1Ac was achieved from putative transgenic plants through gene specific primers. Qualitative comparisons of GTG and Cry1Ac genes expression under two different promoters were obtained through protein dot blot and dipstick assay. The appearance of comparatively dark color dots in dot blot and dark color bands on dipstick with Ubiquitin as compared to light color bands with CaMV35S promoter, qualitatively confirmed high protein expression of two genes under Ubiquitin promoter. In quantitative gene expression comparisons maximum optical density (OD) at 450 nm of UV-light was obtained for GTG (3.7 OD) and Cry1Ac (3 OD) under Ubiquitin promoter, while for GTG (1.6 OD) and Cry1Ac (2.5 OD) with CaMV 35S promoter. The results indicated higher expression of two genes under Ubiquitin-1 promoter in sugarcane was found as compared to CaMV 35S promoter. This study provides a guide for stable and high expression of transgenes with reference to Ubiquitin-1 promoter which can be utilize in sugarcane as well as in other monocots.     

Enhanced salinity stress tolerance in transgenic chilli pepper (<Emphasis Type="Italic">Capsicum annuum</Emphasis> L.) plants overexpressing the wheat antiporter (<Emphasis Type="Italic">TaNHX2</Emphasis>) gene

Transgenic chilli pepper (Capsicum annuum L.) plants tolerant to salinity stress were produced by introducing the wheat Na⁺/H⁺ antiporter gene (TaNHX2) via Agrobacterium-mediated transformation. Cotyledonary explants were infected with Agrobacterium tumefaciens strain LBA4404 harboring a binary vector pBin438 that contains a wheat antiporter (TaNHX2) gene driven by the double CaMV 35S promoter and NPT II gene as a selectable marker. PCR and semiquantitative RT-PCR analysis confirmed that the TaNHX2 gene had been integrated and expressed in the T₁ generation of transgenic pepper plants as compared to the non-transformed plants. Southern blot analysis further verified the integration and presence of TaNHX2 gene in the genome of chilli pepper plants. Biochemical assays of these transgenic plants revealed enhanced levels of proline, chlorophyll, superoxide dismutase, ascorbate peroxidase, relative water content, and reduced levels of hydrogen peroxide (H₂O₂), malondialdehyde compared to wild-type plants under salt stress conditions. The present investigation clearly showed that overexpression of the TaNHX2 gene enhanced salt stress tolerance in transgenic chilli pepper plants.     

Genome-wide comparative analysis of <Emphasis Type="Italic">LEAFY</Emphasis> promoter sequence in angiosperms

Regulation of the flowering mechanism is influenced by many environmental factors. Dissecting the regulatory processes upstream of the LFY (LEAFY) gene will help us to understand the molecular mechanisms of floral induction. In total, 53 LFY sequences were identified in 37 species. Among the 53 selected LFY promoters and after eliminating the short sequences, 47 LFY promoters were analyzed. Comparative genome studies for LFY promoters among plants showed that TATA-box existed in all herbaceous plants. The 1345-bp promoter sequence upstream to hickory LFY gene was cloned and analyzed, together with functional studies. The result of sequence alignment showed that the region of the hickory LFY promoter has only two conserved auxin response elements (AuxRE), whereas other plants had four. The positions of AuxRE in hickory and walnut were the same, but they were different from the positions from other plants. Furthermore the sequence analysis showed that the promoter have TATA-box and CAAT-box motifs. Deletion analysis of these motifs did not block β-glucuronidase (GUS) activity during the transient expression assay, suggesting that it may be a TATA-less promoter. Low temperature and light significantly induced the full-length promoter to increase about two folds of the GUS enzymatic activity, suggesting these environmental factors induced flowering in hickory.     

Tissue specific expression of hepatitis B virus surface antigen in transgenic plant cells and tissue culture

The tobacco plants (Nicotiana tabacum L.) carrying the HBsAg gene controlled by (Aocs)₃AmasPmas, the hybrid promoter that includes regulatory elements of the agrobacterial octopine and mannopine synthase genes, as well as plants controlled by the same promoter and adh1, maize alcohol dehydrogenase gene intron were obtained. The presence of the adh1 gene intron did not significantly change the level of expression of the HBsAg gene in plants. The analysis of expression of hepatitis B virus surface antigen (HBs-antigen) in transformed plants expressing the HBsAg under the control of different promoters was made. The level of HBs-antigen in plants carrying the HBsAg gene controlled by (Aocs)₃AmasPmas, the hybrid agrobacterium-derived promoter, was the highest in roots and made up to 0.01% of total amount of soluble protein. The level of HBs-antigen in plants carrying the HBsAg gene controlled by the dual 35S RNA cauliflower mosaic virus promoter was the same in all organs of the plant and made up to 0.06% of the total amount of soluble protein. Hairy root and callus cultures of plants carrying the HBsAg gene and expressing the HBs-antigen were obtained.     

Screening of promoters from <Emphasis Type="Italic">Arthrobacter</Emphasis> sp. CGMCC 3584 using a green fluorescent protein reporter system

Available molecular and genetic tools for the genetic manipulation of Arthrobacter species are limited until now. In gene engineering, a continuous set of promoters with various strengths are of importance for fine-tuning gene expression in metabolic optimization and control analysis. Here, for the first time, we constructed a promoter trap system using green fluorescence protein (GFP) as a reporter, for screening and characterizing functional Arthrobacter promoters. Twenty-three Arthrobacter transformants of various GFP fluorescence strengths were isolated and characterized through the analysis of DNA sequences. Among the 23 putative promoters, 2 were selected for deletion analysis of promoter elements. As a result, the deletion of the upstream of the putative promoter P8 and P13 caused a 43.8% decrease and a 29.1% increase in the fluorescence signals, respectively. Finally, we obtained the strongest promoter P13-3 which was 4.4 times more potent than the promoter of 6–hydroxyl–d–nicotine oxidase gene which was previously reported in Arthrobacter nicotinovorans, and the obtained promoter was used to improve the production of cyclic adenosine monophosphate in Arthrobacter sp. CGMCC 3584. The screening strategy together with obtained promoters in this study would contribute to the future engineering of Arthrobacter species.     

Genetic polymorphisms in the 5'-flanking region of the melanocortin 1 receptor (<Emphasis Type="Italic">MC1R</Emphasis>) gene in foxes

The one of the key pigment genes, the melanocortin 1 receptor (MC1R) gene, plays a fundamental role in the determination of coat color in a variety of mammals. However, so far there has been no report regarding the genetic variants of the MC1R promoter region and the potential association of its mutations with coat color in foxes. This work aimed to characterize 5'-flanking region of the MC1R gene and its mutations associated with coat color variations in foxes. A total of 76 individuals including 64 red foxes (Vulpes vulpes), representing 11 color morphs, and 12 arctic foxes (Vulpes lagopus), representing 2 color morphs were studied. To explore the potential cause of coat color variation in foxes, an 1105 bp region located upstream of the MC1R gene coding region was sequenced in 76 foxes. In the present study, a 1267 bp 5'-flanking region of fox MC1R gene was obtained using a PCR-mediated chromosome-walking technique and a 1105 bp segment was sequenced. A total of 8 novel SNPs and an insertion/deletion of 4 nucleotides were detected. The results of mutations analysis indicated that SNPs g.-52G>A, g.-266A>G, g.-297T>C, g.-300G>A and the insertion/deletion spaning positions g.-382~-379 were important in distinguishing V. vulpes and V. lagopus. This work, for the first time, described and confirmed the different variants existed in the 5'-flanking region of MC1R gene between red foxes and arctic foxes. These findings may be extremely helpful for further exploring the alternative splicings or promoter activity of MC1R gene for different coat-colored foxes.     

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.     

Activity of promoters of carnation etched ring virus and dahlia mosaic virus in tobacco protoplasts and transgenic plants

Promoters of carnation etched ring virus (CERV) and dahlia mosaic virus (DMV) were cloned into binary vectors pCambia 1304, pCambia 1281Z, and pCambia 1291Z with reporter GFP and GUS genes. Activities of these promoters in tobacco protoplasts and transgenic plants were determined using these constructs. Histochemical GUS analysis demonstrated the absence of tissue-specificity in transgenic plants transformed with these promoters. The quantitative analysis of these promoter activities in transgenic tobacco plants, using 4-methylumbelliferone as a substrate, showed that 35S CaMV, CERV, and DMV promoters displayed approximately similar activities in transgenic tobacco plants.     

Isolation and functional characterization of a novel stress inducible promoter from pigeonpea (<Emphasis Type="Italic">Cajanus cajan</Emphasis> L)

The present study deals with isolation and characterization of a novel hybrid-proline-rich protein gene (CcHyPRP) promoter from pigeonpea. Real time PCR analysis revealed that CcHyPRP expression was strongly induced by dehydration, salt, Abscisic acid (ABA) and Salicylic acid (SA) treatments. The CcHyPRP promoter, isolated by genome-walking method, contained 1112 bp and showed the presence of various cis -regulatory elements necessary for tissue specific expression and stress responsiveness. Different 5′ deletions of the promoter were generated and were used to drive the expression of β-glucuronidase reporter gene (gusA) in Arabidopsis thaliana. Histochemical and fluorometric assays confirmed that GUS expression driven by the full-length fragment (1112 bp) was higher when compared to different deletion fragments. Under normal conditions, GUS expression was predominantly detected in the roots and hypocotyls of transformants, while under mannitol, NaCl, ABA and SA treatment conditions higher GUS expression levels were observed in the roots and leaves. However, the GUS expression was mostly confined to the roots of transformants carrying 477 and 300 bp promoter regions. The results amply indicate that CcHyPRP promoter is regulated by different stress factors, and as such the promoter can be deployed in genetic engineering of crop plants for enhanced abiotic stress tolerance.     

Identification and Mutational Analysis of <Emphasis Type="Italic">Escherichia coli</Emphasis> Sorbitol-Enhanced Glucose-Repressed <Emphasis Type="Italic">srlA</Emphasis> Promoter Expressed in LB Medium by Using Homologous Recombination and One-Round PCR Products

Escherichia coli has been used for recombinant protein production for many years. However, no native E. coli promoters have been found for constitutive expression in LB medium. To obtain high-expression E. coli promoters active in LB medium, we inserted various promoter regions upstream of eEmRFP that encodes a red fluorescent protein. Among the selected promoters, only colonies of srlA promoter transformants turned red on LB plate. srlA is a gene that regulates sorbitol utilization. The addition of sorbitol enhanced eEmRFP expression but glucose and other sugars repressed, indicating that srlAp is a sorbitol-enhanced glucose-repressed promoter. To analyze the srlAp sequence, a novel site-directed mutagenesis method was developed. Since we demonstrated that homologous recombination in E. coli could occur between 12-bp sequences, 12-bp overlapping sequences were attached to the set of primers that were designed to produce a full-length plasmid, denoted “one-round PCR product.” Using this method, we identified that the srlA promoter region was 100 bp. Further, the sequence adjacent to the start codon was found to be essential for high expression, suggesting that the traditionally used restriction enzyme sites for cloning in the promoter region have hindered expression. The srlA-driven expression system and DNA manipulation with one-round PCR products are useful tools in E. coli genetic engineering.     

Overexpression of <Emphasis Type="Italic">SsDGAT2</Emphasis> from <Emphasis Type="Italic">Sapium sebiferum</Emphasis> (L.) Roxb Increases Seed Oleic Acid Level in <Emphasis Type="Italic">Arabidopsis</Emphasis>

Sapium sebiferum (L.) Roxb is one of the most important oil trees in China. Diacylglycerol acyltransferases (DGATs) esterify sn-1, 2-diacylglycerol with a long-chain fatty acyl-CoA, the last step and the rate-limiting step of triacylglycerol (TAG) biosynthesis in prokaryotic and eukaryotic organisms. At least 74 DGAT2 sequences from 61 organisms have been identified, but the SsDGAT2 gene had not been reported to date. To clarify the function of SsDGAT2, we cloned the CDS (rapid amplification of cDNA end) of SsDGAT2 by RACE technology. The full-length CDS of SsDGAT2 contains 1011 bp and encodes a protein of 336 amino acids. Recombinant SsDGAT2 restored TAG biosynthesis to the yeast strain Saccharomyces cerevisiae H1246 TAG-deficient mutant and preferentially incorporated unsaturated C18 fatty acids into lipids. To investigate the biotechnological potential of SsDGAT2, it was expressed under the control of the 35S promoter in Arabidopsis Col-4. The oleic acid content increased by 50 % in transgenic plants relative to the control. The results indicated that most of the oleic acid increase was at the expense of linolenic acid (18:3) content, which suggests that high-oleic-acid-content seeds can be created by the overexpression of SsDGAT2 in S. sebiferum (L.) Roxb.     

RiHSPRO2, a nematode resistance protein-like homolog from a wild crucifer <Emphasis Type="Italic">Rorippa indica</Emphasis> (L.) Hiern,is a promising candidate to control mustard aphid <Emphasis Type="Italic">Lipaphis erysimi</Emphasis>

Nematode resistance protein HSPRO2 of Arabidopsis thaliana has important roles in defence response to the bacterium (Pseudomonas syringae) and shows response against oxidative stress and salicylic acid. We have explored the gene encoding it from Rorippa indica (L.) Hiern, a wild relative of cultivated crucifers experimentally challenged with mustard aphid Lipaphis erysimi. The gene seems to be a strong candidate for aphid tolerance in cultivated mustards. Presently we are reporting the results of a time-course quantitative relative expression analysis of HSPRO2 of R. indica where we have observed?~?tenfold increase in its expression in R. indica at 12 hours post infestation with L. erysimi. We have also isolated the full-length gene (1314 bp) by both 5′ and 3′ RACE (Rapid Amplification of cDNA Ends). Genome walking experiment identified the promoter sequence. Expression, purification and characterisation of RiHSPRO2 showed that it encodes for a 437 amino acid peptide. The 66 kDa recombinant RiHSPRO2 protein was purified for studying its efficacy against L. erysimi in an artificial diet-based insect bioassay that revealed LC₅₀ (Lethal Concentration 50) values of RiHSPRO2 significantly within limits against L. erysimi. The present study might have a significant implication in future towards aphid management program of Brassica juncea through the development of aphid-tolerant transgenic plants.     

Isolation of four rice seed-specific promoters and evaluation of endosperm activity

Cereal grains are major targets for genetically improving the nutritional value of food and for producing recombinant proteins. Strong and tissue-specific promoters are highly desired for effectively controlling expression in the seed or endosperm. In this study, we isolated four rice promoters from the 5′ upstream region of putative seed-specifically expressed genes: PROLAM26, RAL2, RAL4 and CAPIP. By generating transgenic rice plants carrying promoter-reporter constructs, we found these four promoters to be specifically expressed in seeds, with three having endosperm-specific or -preferential activity. The strength of each promoter in the endosperm was determined and compared to a constitutively expressed OsACTIN promoter and an endosperm-specifically expressed Glu4-B promoter in single-copy transgenic plants. The promoter of RAL2 exhibited relatively high activity, and the promoters of RAL4 and CAPIP exhibited activities comparable with those of OsACTIN and Glu4-B. In addition, monitoring activities in high-generation (T₃–T₄) homozygous progeny of single-copy plants revealed maintenance of expression for all four promoters, with no evidence of silencing. Taken together, our findings offer four stable rice seed-specific promoters of different strengths for endosperm expression.