Overexpression of soybean <Emphasis Type="Italic">GmERF9</Emphasis> enhances the tolerance to drought and cold in the transgenic tobacco

Ethylene response factors (ERFs) are widespread in plants, which are widely involved in plant response to biotic and abiotic stress. In this research, a soybean gene, GmERF9, was identified and the function was characterized. The results showed that GmERF9 contained a typical AP2/ERF binding domain and a putative nuclear localization signal sequence. The real-time fluorescence quantitative PCR (qPCR) revealed that the expression of GmERF9 could be induced by ethylene (ET), abscisic acid (ABA), drought, salt and cold stresses. GmERF9 protein could specifically bind to the GCC-box and activate the expression of the reporter gene in the yeast cells and tobacco leaves. Overexpression of GmERF9 enhanced the expression of pathogenesis-related (PR) genes, including PR1, PR2, Osmotin (PR5), and SAR8.2. Also, the overexpression of GmERF9 increased the accumulation of proline and soluble carbohydrate, and decreased the accumulation of malondialdehyde under drought and cold stresses in the transgenic tobacco compared to the wild type (WT) tobacco, which indicated that GmERF9 enhanced the tolerance to drought and cold stresses in the transgenic tobacco. In summary, the function of GmERF9 is involved in the response to environmental stresses for plants, which can be used as a candidate gene for genetic engineering of crops.     

Jasmonate mediates salt induced nicotine biosynthesis in tobacco (Nicotiana tabacum L.)

Jasmonate (JA), as an important signal, plays a key role in multiple processes of plant growth, deve lopment and stress response. Nicotine and related pyridine alkaloids in tobacco (Nicotiana tabacum L.) are essential secondary metabolites. Whether environmental factors control nicotine biosynthesis and the underlying mechanism remains previously unreported. Here, we applied physiological and biochemical approaches to investigate how salt stress affects nicotine biosynthesis in tobacco. We found that salt stress induced the biosynthesis of JA, which subsequently triggered the activation of JA responsive gene expression and, ultimately, nicotine synthesis. Bioinformatics analysis revealed the existence of many NtMYC2a recognized G box motifs in the promoter regions of NtLOX, NtAOS, NtAOC and NtOPR genes. Applying exogenous JA increased nicotine content, while suppressing JA biosynthesis reduced nicotine biosynthesis. Salt treatment could not efficiently induce nicotine biosynthesis in transgenic anti COI1 tobacco plants. These results demonstrate that JA acts as the essential signal which triggers nicotine biosynthesis in tobacco after salt stress.     

Differential induction of oxylipin pathway in potato and tobacco cells by bacterial and oomycete elicitors

Key message

Potato and tobacco cells are differentially suited to study oxylipin pathway and elicitor-induced responses.

Abstract

Synthesis of oxylipins via the lipoxygenase (LOX) pathway provides plant cells with an important class of signaling molecules, related to plant stress responses and innate immunity. The aim of this study was to evaluate the induction of LOX pathway in tobacco and potato cells induced by a concentrated culture filtrate (CCF) from Phytophthora infestans and lipopolysaccharide (LPS) from Pectobacterium atrosepticum. Oxylipin activation was evaluated by the measurement of LOX activity and metabolite quantification. The basal levels of oxylipins and fatty acids showed that potato cells contained higher amounts of linoleic (LA), linolenic (LnA) and stearic acids than tobacco cells. The major oxylipin in potato cells, 9(S),10(S),11(R)-trihydroxy-12(Z),15(Z)-octadecadienoic acid (9,10,11-THOD), was not detected in tobacco cells. CCF induced a sharp increase of LA and LnA at 8 h in tobacco cells. In contrast they decreased in potato cells. In CCF-treated tobacco cells, colneleic acid increased up to 24 h, colnelenic acid and 9(S)-hydroxyoctadecatrienoic acid (9(S)-HOT) increased up to 16 h. In potato cells, only colneleic acid increased slightly until 16 h. A differential induction of LOX activity was measured in both cells treated by CCF. With LPS treatment, only 9,10,11-THOD accumulation was significantly induced at 16 h in potato cells. Fatty acids were constant in tobacco but decreased in potato cells over the studied time period. These results showed that the two elicitors were differently perceived by the two Solanaceae and that oxylipin pathway is strongly induced in tobacco with the CCF. They also revealed that elicitor-induced responses depended on both cell culture and elicitor.     

Assessing protein availability of different bioethanol coproducts in dairy cattle

Bioethanol production has led to the production of considerable quantities of different coproducts. Variation in nutrient profiles as well as nutrient availability among these coproducts may lead to an imbalance in the formulation of diets. The objectives of this study were to fractionate protein and carbohydrates by an in situ approach, to determine ruminal availability of nutrients for microbial protein synthesis and to determine protein availability to dairy cattle for three types of dried distiller's grains with solubles (DDGS; 100% wheat DDGS (WDDGS); DDGS blend1 (BDDGS1, corn to wheat ratio 30 : 70); DDGS blend2 (BDDGS2, corn to wheat ratio 50 : 50)) and for different batches within DDGS type using the 2010 DVE/OEB protein evaluation system. The results indicated that all DDGS types are quantitatively good sources of true protein digested and absorbed in the small intestine (DVE values; 177, 184 and 170 g/kg dry matter (DM) for WDDGS, BDDGS1 and BDDGS2, respectively). Rumen degraded protein balances (OEB) values were 159, 82, 65 g/kg DM in WDDGS, BDDGS1 and BDDGS2, respectively. Despite the differences in ruminal availability of nutrients among the different batches of DDGS, the DVE values only differed between the batches of BDDGS1 (194 v. 176 g/kg DM). In conclusion, when DDGS is included in the rations of dairy cattle, variation in its protein value due to factors such as DDGS batch should be taken into consideration.     

Expression of recombinant antibody (single chain antibody fragment) in transgenic plant Nicotiana tabacum cv. Xanthi

Plants offer an alternative inexpensive and convenient technology for large scale production of recombinant proteins especially recombinant antibodies (plantibodies). In this paper, we describe the expression of a model single chain antibody fragment (B6scFv) in transgenic tobacco. Four different gene constructs of B6scFv with different target signals for expression in different compartments of a tobacco plant cell with and without endoplasmic reticulum (ER) retention signal were used. Agrobacterium mediated plant transformation of B6scFv gene was performed with tobacco leaf explants and the gene in regenerated plants was detected using histochemical GUS assay and PCR. The expression of B6scFv gene was detected by western blotting and the recombinant protein was purified from putative transgenic tobacco plants using metal affinity chromatography. The expression level of recombinant protein was determined by indirect enzyme-linked immunosorbent assay. The highest accumulation of protein was found up to 3.28 % of the total soluble protein (TSP) in plants expressing B6scFv 1003 targeted to the ER, and subsequently expression of 2.9 % of TSP in plants expressing B6scFv 1004 (with target to apoplast with ER retention signal). In contrast, lower expression of 0.78 and 0.58 % of TSP was found in plants expressing antibody fragment in cytosol and apoplast, without ER retention signal. The described method/system could be used in the future for diverse applications including expression of other recombinant molecules in plants for immunomodulation, obtaining pathogen resistance against plant pathogens, altering metabolic pathways and also for the expression of different antibodies of therapeutic and diagnostic uses.     

Characterization of harpin<Subscript>Xoo</Subscript> induced hypersensitive responses in non host plant,tobacco

Harpin proteins encoded by hrp genes are bacterial protein elicitors that can stimulate hypersensitive response (HR) in non-host plants. HR-related pathogen resistance involves a complex form of programmed cell death (PCD). It is increasingly viewed as a key component of the hypersensitive disease response of plants. Currently, the evidence of harpin proteins-induced PCD is deficient though it exhibits phenotypic parallels with HR, and the mechanism of harpin proteins-induced PCD is not well understood. In this study, we demonstrate that harpin_Xoo protein from Xanthomonas oryzae pv. oryzae of rice bacterial blight expressed and isolated from bacterial cells acted as an agent to induce PCD in infiltrated tobacco plants. Treatment of tobacco leaves with harpin_Xoo induced typical PCD-related morphological and biochemical changes including cell shrinkage and nuclear DNA degradation. We further analyzed the expression of several genes in signal transduction pathway of PCD in tobacco plants by real-time qRT-PCR analysis using EF-1α as an endogenous control. Our results showed that the expression of NtDAD1 was down-regulated and the expression of BI-1, tpa1 and aox1 was up-regulated following the infiltration of harpin_Xoo into tobacco leaves. Our data suggest that harpin_Xoo can induce PCD with the coordination of PCD-related genes in infiltrated tobacco leaves, providing evidence to further investigate the signal transduction pathways of HR and PCD.     

Transgenic crop plants expressing synthetic cry9Aa gene are protected against insect damage

A synthetic gene sequence of cry9Aa was made to achieve high expression levels in a plant cell. Tobacco, potato, cauliflower and turnip rape plants were transformed with this synthetic gene driven by the double 35S promoter using Agrobacterium tumefaciens LBA4404. The presence and expression of the synthetic cry9Aa gene was evaluated in Southern, Northern and Western analysis and with insect bioassays. The expression of the gene in tobacco plants reached a level of 5 pg of mRNA per 1 μg of total RNA and 0.3% of soluble protein or 1.4 μg of Cry9Aa protein per 1 g of leaf material. The expression level in the other species was three to ten times lower. Tobacco plants were also transformed with a truncated native cry9Aa gene construct and with a translational fusion construct of the truncated native cry9Aa and the uidA (GUS) gene sequence. The constructs were transformed in tobacco plants under the control of the same promoter as the synthetic cry9Aa. The expression level of the native cry9Aa gene constructs ranged from 0.03 to 1 pg of cry9Aa mRNA per 1 μg of total RNA. The protein was undetectable in Western analysis. In comparison to the native constructs the expression level of the synthetic cry9Aa gene was five to ten times higher at the mRNA level and at least 50 times higher at the translational level. Bioassays against Plutella xylostella performed with transgenic cauliflower showed high insecticidal activity of the plants expressing the synthetic cry9Aa gene.     

Expression of a Novel Small Antimicrobial Protein from the Seeds of Motherwort (Leonurus japonicus) Confers Disease Resistance in Tobacco

Medicinal plants are valuable resources of natural antimicrobial materials. A novel small protein with antimicrobial activities, designated LJAMP1, was purified from the seeds of a medicinal herb, motherwort (Leonurus japonicus Houtt). LJAMP1 is a heat-stable protein with a molecular mass of 7.8 kDa and a determined isoelectric point of 8.2. In vitro assays showed that LJAMP1 inhibits the growth of an array of fungi and bacteria. The hyphal growth inhibition by LJAMP1 was more evident against hyphomycete fungi, such as Alternaria alternata, Cercospora personata, and Aspergillus niger. The N-terminal amino acid sequence of LJAMP1 was determined, and its coding gene was consequently cloned by the rapid amplification of cDNA ends. The gene LJAMP1 has no intron and encodes a polypeptide of 95 amino acids, in which the first 27 residues was deduced as a signal peptide. The mature LJAMP1 shows relatively low identity to plant napin-like storage proteins. Northern blot assays revealed that LJAMP1 is expressed preferentially in seeds. Bioassays in transgenic tobacco demonstrated that that overexpression of LJAMP1 significantly enhanced the resistance of tobacco against not only the fungal pathogen A. alternata but also the bacterial pathogen Ralstonia solanacearum, while no visible alteration in plant growth and development was observed.     

Biosynthesis and Secretion of Cryptogein, a Protein Elicitor Secreted by Phytophthora cryptogea

The phytopathogenic fungi Phytophthora subspecies elicit hypersensitive-like necroses on their nonhost tobacco (Nicotiana tabacum), with the exception of the tobacco pathogen Phytophthora nicotianæ. In culture, these fungi—except P. nicotianæ—secrete proteins, called elicitins, that cause these remote leaf necroses and are responsible for the incompatible reaction. These proteins protect tobacco against invasion by the agent of the tobacco black shank, P. nicotianæ, which is unable to produce such an elicitor. Cryptogein, secreted by Phytophthora cryptogea, has been purified, sequenced, and characterized as an elicitin, a novel family of 10 kilodalton holoproteins. In the present paper, we examined the secretion and biosynthesis of this protein elicitor from P. cryptogea culture. Results showed that the secretion of cryptogein began later than its synthesis and stopped earlier, simultaneously with mycelium growth, when the nitrogen source in the culture medium was nearly exhausted. Electrophoretic patterns of total protein from mycelium extracts and N-terminal sequence analysis showed that cryptogein accumulated in the mycelium in its mature form. The comparison of the immunoselected in vitro translation products with ³⁵S in vivo-labeled cryptogein showed that cryptogein was synthesized as a preprotein with a signal peptide removed cotranslationally before the secretion into the culture medium. Immunoselected in vitro-synthesized products were subjected to radiosequencing to clearly determine the N-terminal position and the size (20 amino acids) of the signal peptide. Cryptogein did not undergo any other posttranslational modification.     

Overexpression of sense and antisense ced-9 in tobacco plants confers resistance to Meloidogyne incognita

Transgenic tobacco plants expressing the Caenorhabditis elegans programmed cell death gene ced-9, in both sense and antisense orientations, were produced using Agrobacterium tumefaciens-mediated transformation. The generated transgenic tobacco plants were tested for resistance to the root-knot nematode Meloidogyne incognita by measuring gall formation, size of galls generated, and the ability of juvenile-2 (J2) to hatch. Results showed that expression of ced-9 gene in either sense (ced-9F) or antisense (ced-9R) orientation in hemizygous transgenic tobacco plants induced prevention of M. incognita proliferation (as measured by gall number reduction) and J2 hatching. Furthermore, the results also showed that ced-9R in homozygous transgenic tobacco plants prevented J2 hatching, whereas ced-9F homozygous transgenic tobacco plants lost nematicidal function. Although our study demonstrates that expression of either ced-9R or ced-9F genes in tobacco plants significantly reduces infection by M. incognita, further investigation is required to understand the specific mechanisms involved for this control. It is possible that the nematode resistance seen with both sense (ced-9F) and antisense (ced-9R) sequences is the result of two independent mechanisms, one acting on invading nematodes and the other acting during embryogenesis of M. incognita, ultimately resulting in plant protection.     

Cloning of Sucrose:Sucrose 1-Fructosyltransferase from Onion and Synthesis of Structurally Defined Fructan Molecules from Sucrose

Sucrose (Suc):Suc 1-fructosyltransferase (1-SST) is the key enzyme in plant fructan biosynthesis, since it catalyzes de novo fructan synthesis from Suc. We have cloned 1-SST from onion (Allium cepa) by screening a cDNA library using acid invertase from tulip (Tulipa gesneriana) as a probe. Expression assays in tobacco (Nicotiana plumbaginifolia) protoplasts showed the formation of 1-kestose from Suc. In addition, an onion acid invertase clone was isolated from the same cDNA library. Protein extracts of tobacco protoplasts transformed with this clone showed extensive Suc-hydrolyzing activity. Conditions that induced fructan accumulation in onion leaves also induced 1-SST mRNA accumulation, whereas the acid invertase mRNA level decreased. Structurally different fructan molecules could be produced from Suc by a combined incubation of protein extract of protoplasts transformed with 1-SST and protein extract of protoplasts transformed with either the onion fructan:fructan 6G-fructosyltransferase or the barley Suc:fructan 6-fructosyltransferase.     

Detection of quorum sensing signal molecules and identification of an autoinducer synthase gene among biofilm forming clinical isolates of Acinetobacter spp

Background

Quorum sensing is a term that describes an environmental sensing system that allows bacteria to monitor their own population density which contributes significantly to the size and development of the biofilm. Many gram negative bacteria use N-acyl-homoserine lactones as quorum sensing signal molecules. In this study, we sought to find out if the biofilm formation among clinical isolates of Acinetobacter spp. is under the control of autoinducing quorum sensing molecules.

Methodology/Principal Findings

Biofilm formation among clinical isolates of Acinetobacter spp. was assessed and the production of signal molecules were detected with Chromobacterium violaceum CV026 biosensor system. Characterisation of autoinducers was carried out by mass spectrometric analysis. We have also reported the identification of an autoinducer synthase gene, abaΙ among the isolates that produce quorum sensing signal molecules and have reported that the mutation in the abaI gene influences their biofilm forming capabilities. Using a microtitre-plate assay it was shown that 60% of the 50 Acinetobacter spp. isolates significantly formed biofilms. Further detection with the biosensor strain showed that some of these isolates produced long chain signal molecules. Mass spectrometric analysis revealed that five of these isolates produced N-decanoyl homoserine lactone and two isolates produced acyl-homoserine lactone with a chain length equal to C₁₂. The abaΙ gene was identified and a tetracycline mutant of the abaΙ gene was created and the inhibition in biofilm formation in the mutant was shown.

Conclusions/Significance

These data are of great significance as the signal molecules aid in biofilm formation which in turn confer various properties of pathogenicity to the clinical isolates including drug resistance. The use of quorum sensing signal blockers to attenuate bacterial pathogenicity is therefore highly attractive, particularly with respect to the emergence of multi antibiotic resistant bacteria.     

A tobacco gene encoding a novel basic class II chitinase: a putative ancestor of basic class I and acidic class II chitinase genes

Various chitinases have been identified in plants and categorized into several groups based on the analysis of their sequences and domains. We have isolated a tobacco gene that encodes a predicted polypeptide consisting of a 20-amino acid N-terminal signal peptide, followed by a 245-amino acid chitinolytic domain. Although the predicted mature protein is basic and shows greater sequence identity to basic class I chitinases (75%) than to acidic class II chitinases (67%), it lacks the N-terminal cysteine-rich domain and the C-terminal vacuolar targeting signal that is diagnostic for class I chitinases. Therefore, this gene appears to encode a novel, basic, class II chitinase, which we have designated NtChia2;B1. Accumulation of Chia2;B1 mRNA was induced in leaves in association with the local-lesion response to tobacco mosaic virus (TMV) infection, and in response to treatment with salicylic acid, but was only slightly induced by treatment with ethephon. Little or no Chia2;B1 mRNA was detected in roots, flowers, and cell-suspension cultures, in which class I chitinase mRNAs accumulate to high concentrations. Sequence comparisons of Chia2;B1 with known tobacco class I and class II chitinase genes suggest that Chia2;B1 might encode an ancestral prototype of the present-day class I and class II isoforms. Possible mechanisms for chitinase gene evolution are discussed.