Expression and functional analysis of two genes encoding transcription factors, VpWRKY1 and VpWRKY2, isolated from Chinese wild Vitis pseudoreticulata

In this study, two WRKY genes were isolated from Erysiphe necator-resistant Chinese wild Vitis pseudoreticulata W. T. Wang ‘Baihe-35-1’, and designated as VpWRKY1 (GenBank accession no. GQ884198) and VpWRKY2 (GenBank accession no. GU565706). Nuclear localization of the two proteins was demonstrated in onion epidermal cells, while trans-activation function was confirmed in the leaves of ‘Baihe-35-1’. Expression of VpWRKY1 and VpWRKY2 was induced rapidly by salicylic acid treatment in ‘Baihe-35-1’. Expression of VpWRKY1 and VpWRKY2 was also induced rapidly by E. necator infection in 11 grapevine genotypes; the maximum induction of VpWRKY1 was greater in E. necator-resistant grapevine genotypes than in susceptible ones post E. necator inoculation. Furthermore, ectopic expression of VpWRKY1 or VpWRKY2 in Arabidopsis enhanced resistance to powdery mildew Erysiphe cichoracearum, and enhanced salt tolerance of transgenic plants. VpWRKY2 also enhanced cold tolerance of transgenic plants. In addition, the two proteins were shown to regulate the expression of some defense marker genes in Arabidopsis and grapevine. The data suggest that VpWRKY1 and VpWRKY2 may underlie the resistance in transgenic grapevine to E. necator and tolerance to salt and cold stresses.     

Transient expression of glyoxal oxidase from the Chinese wild grape Vitis pseudoreticulata can suppress powdery mildew in a susceptible genotype

Vitis pseudoreticulata glyoxal oxidase (VpGLOX) was previously isolated from the Chinese wild vine V. pseudoreticulata accession “Baihe-35-1” during a screen for genes that are upregulated in response to infection with grapevine powdery mildew (Erysiphe necator, PM). In the present study, a possible function of VpGLOX for defense against PM was investigated using Agrobacterium-mediated transient expression. After optimizing agro-infiltration, VpGLOX was transiently overexpressed in leaves of either PM-susceptible (accession “6-12-2”) or PM-resistant (accession “6-12-6”) plants. The efficiency of transfection was verified using a β-glucuronidase (GUS) reporter and was found to comprise most leaf areas regardless of the initial leaf position. Upon infection with E. necator, clear differences were observed with respect to hyphal development between agro-infiltrated leaves and control groups of both, the susceptible and the resistant, genotypes. The expression of VpGLOX was followed by real-time polymerase chain reaction in both genotypes. Whereas in the susceptible host (“6-12-2”) expression was found to increase only in transfected leaves and remained transient, in the resistant host (“6-12-6”), a second peak appeared later in transfected leaves, probably representing the response of the endogenous VpGLOX. The data support the interpretation that VpGLOX is sufficient to confer resistance to E. necator.     

cDNA cloning and characterization of the novel genes related to aldehyde dehydrogenase from wild Chinese grape (Vitis pseudoreticulata W. T. Wang).

mRNA differential display was employed to study the gene differential expression of wild Chinese grape (Vitis pseudoreticulata W. T. Wang) infected by Uncinula necator in different periods, a cDNA fragment of T11AC/B0319-456 coded by aldehyde dehydrogenase (ALDH) gene has been obtained. 5' RACE and 3' RACE have been used to clone the whole cDNA sequences of ALDH which consists of three cDNA sequences, whose sizes are 1887, 1956 and 1961 bp, and they encoded a polypeptide size of 537, 524 and 477 designated as VpALDH2a, VpALDH2b and VpALDH1a, respectively. The deduced amino acid sequence shared highly identity with other plants and Human ALDH. Both VpALDH2a and VpALDH2b protein contain putative mitochondrial targeting sequence except VpALDH1a, it indicates that VpALDH2a and VpALDH2b are mitochondrial enzymes, and VpALDH1a is cytosolic enzyme. The VpALDH2a was subcloned into the expression vector pGEX-4T-1, transformed into E.coli BL 21-coden plus induced by IPTG, and about Mr. 85 kD of GST-ALDH fusion protein displayed in SDS-PAGE gel.     

Expression pattern, genomic structure, and promoter analysis of the gene encoding stilbene synthase from Chinese wild Vitis pseudoreticulata

The gene encoding stilbene synthase (STS) plays a central role in many biochemical and physiological actions, and its metabolite resveratrol possesses broad-spectrum resistance to pathogens, as well as diverse pharmacological properties, notably an anticancer effect. Here, we report the expression analysis of the gene encoding STS and its promoter function from a powdery mildew (PM)-resistant Chinese wild Vitis pseudoreticulata, and compare it with two PM-susceptible cultivated grapevines, Vitis vinifera cvs. Carignane and Thompson Seedless. We show an unusual expression pattern of STS in V. pseudoreticulata, which differs markedly from that of the cultivated species. Sequence comparisons reveal that the genomic DNA sequences encoding STS in the three grapevines are highly conserved, but a novel residue mutation within the key motif of STS is solely present in V. pseudoreticulata. Moreover, the STS promoter in V. pseudoreticulata displays a significantly different structure from that found in the two V. vinifera. The three promoter-driven GUS differential expression patterns in transformed tobacco plants induced with Alternaria alternata, methyl jasmonate, and wounding indicated that the structurally different STS promoter of V. pseudoreticulata is responsible for its specific regulatory function. We also demonstrate that the expression of STS genes from their native promoters are functional in transformed tobacco and retain pathogen inducibility. Importantly, the genomic DNA-2 of V. pseudoreticulata under its native promoter shows good induction and the maximum level of resveratrol content. These findings further our understanding of the regulation of STS expression in a resistant grapevine and provide a new pathogen-inducible promoter system for the genetic improvement of plant disease resistance.     

玉米逆境响应相关转录因子ZmC2H2-1基因克隆及功能验证

玉米是我国第一大作物,提高玉米的抗逆性是玉米育种的重要目标性状之一。植物C2H2型锌指蛋白广泛参与植物各个时期的生长发育及逆境应答过程。本研究从玉米中分离了转录因子ZmC2H2-1基因并对其功能进行了初步研究。结果表明,ZmC2H2-1属于C2H2锌指蛋白转录因子家族,编码蛋白主要位于细胞核中,酵母自激活实验表明ZmC2H2-1不具有自激活活性;干旱、盐和ABA等逆境可抑制ZmC2H2-1基因在玉米中的表达;过表达ZmC2H2-1基因的拟南芥叶片失水速率更快,在PEG、高盐和ABA处理条件下,与对照相比转ZmC2H2-1基因拟南芥耐逆性降低,以上结果说明ZmC2H2-1基因是作为玉米抗逆的负调控因子参与了逆境胁迫应答。本研究为深入解析玉米ZmC2H2-1的调控网络和玉米的抗逆调控机制奠定了基础。     

Co-expression of VpROMT gene from Chinese wild Vitis pseudoreticulata with VpSTS in tobacco plants and its effects on the accumulation of pterostilbene

Plant secondary metabolites, such as stilbenes, have fungicidal potential and have been found in several plant species. Stilbenes in grapevine, such as resveratrol and pterostilbene, have recently attracted much attention, they are not only helping the plant to fight against pathogen attack, but they are also being widely used as ingredients of fungicide, anti-inflammatory drugs, antioxidant, and anti-infective agents. However, resveratrol O-methyltransferase gene, related with the synthesis of pterostilbene from resveratrol, has not been characterized effectively from Chinese wild Vitis pseudoreticulata. In this study, a candidate of resveratrol O-methyltransferase gene designated as VpROMT was isolated from a powdery mildew-resistant Chinese wild V. pseudoreticulata 'Baihe-35-1', and characterization studies were performed. Expression studies showed that VpROMT was predominantly expressed in developing roots yet not found in the leaves, stems, nor tendrils when the plants are not challenged. Results of qRT-PCR showed that VpROMT was rapidly induced by Erysiphe necator in V. pseudoreticulata and by methyl-jasmonate, UV-irradiation in suspension culture cells of Vitis romanetii. The expression level varies in different tissues of grapevine, which MeJA and UV-C treatment significantly upregulated the expression of VpROMT gene while UV-B treatment failed to. Co-expression of VpROMT and grapevine stilbene synthase (VpSTS) gene leads to the accumulation of pterostilbene in leaves of tobacco (Nicotiana tabacum) indicating that VpROMT was able to catalyze the biosynthesis of pterostilbene from resveratrol in over-expression transgenic tobacco plants.     

Isolation and characterization of a Vitis vinifera transcription factor, VvWRKY1, and its effect on responses to fungal pathogens in transgenic tobacco plants

Pathogen attack represents a major problem for viticulture and for agriculture in general. At present, the use of phytochemicals is more and more restrictive, and therefore it is becoming essential to control disease by having a thorough knowledge of resistance mechanisms. The present work focused on the trans-regulatory proteins potentially involved in the control of the plant defence response, the WRKY proteins. A full-length cDNA, designated VvWRKY1, was isolated from a grape berry library (Vitis vinifera L. cv. Cabernet Sauvignon). It encodes a polypeptide of 151 amino acids whose structure is characteristic of group IIc WRKY proteins. VvWRKY1 gene expression in grape is regulated in a developmental manner in berries and leaves and by various signal molecules involved in defence such as salicylic acid, ethylene, and hydrogen peroxide. Biochemical analysis indicates that VvWRKY1 specifically interacts with the W-box in various nucleotidic contexts. Functional analysis of VvWRKY1 was performed by overexpression in tobacco, and transgenic plants exhibited reduced susceptibility to various fungi but not to viruses. These results are consistent with a possible role for VvWRKY1 in grapevine defence against fungal pathogens.     

Subcellular localization and functional analyses of a PR10 protein gene from Vitis pseudoreticulata in response to Plasmopara viticola infection

Downy mildew, caused by the oomycete Plasmopara viticola, is a serious fungal disease in the cultivated European grapevines (Vitis vinifera L.). The class 10 of pathogenesis-related (PR) genes in grapevine leaves was reported to be accumulated at mRNA level in response to P. viticola infection. To elucidate the functional roles of PR10 genes during plant–pathogen interactions, a PR10 gene from a fungal-resistant accession of Chinese wild Vitis pseudoreticulata (designated VpPR10.2) was isolated and showed high homology to PR10.2 from susceptible V. vinifera (designated VvPR10.2). Comparative analysis displayed that there were significant differences in the patterns of gene expression between the PR10 genes from the two host species. VpPR10.2 was induced with high level in leaves infected by P. viticola, while VvPR10.2 showed a low response to this inoculation. Recombinant VpPR10.2 protein showed DNase activity against host genomic DNA and RNase activity against yeast total RNA in vitro. Meanwhile, recombinant VpPR10.2 protein inhibited the growth of tobacco fungus Alternaria alternata and over-expression of VpPR10.2 in susceptible V. vinifera enhanced the host resistance to P. viticola. The results from subcellular localization analysis showed that VpPR10.2 proteins were distributed dynamically inside or outside of host cell. Moreover, they were found in haustorium of P. viticola and nucleus of host cell which was associated with a nucleus collapse at 10 days post-inoculation. Taken together, these results suggested that VpPR10.2 might play an important role in host plant defense against P. viticola infection.     

cDNA Clone, fusion expression and purification of the novel gene related to ascorbate peroxidase from Chinese wild Vitis pseudoreticulata in E. coli

Powdery mildew, caused by Uncinula necator Burr, is one of the most seriously damaging diseases of grapevine all over the world. To gain the novel gene and investigate the resistance mechanism in Chinese Wild Vitis pseudoreticulata clone Baihe-35-1, mRNA differential display was employed to study the differential expression of the resistant gene to the disease of it when inoculated by Uncinula necator under natural field conditions, 5′ RACE and 3′ RACE have been used to clone the whole cDNA sequences of VpAPX, the novel gene related to Ascorbate Peroxidase which involved in resistant to the disease, is composed of specific sequence 1077 bp and has an open reading frame of 750 bp coding for 250 amino acid residues with a molecular weight of 27.566 kDa. The VpAPX gene was obtained by polymerase chain reaction (PCR) with the special primers synthesized according to the sequences of cDNA, and further cloned it into the pGEM-T easy vector. The cloned VpAPX gene was cut out again with two restriction enzymes and was inserted into the prokaryotic expression vector pGEX-4T-1, then transferred into E. coli BL21. As result, GST-VpAPX fusion protein was successfully expressed by induction of IPTG and purified by GST affinity resin. After injecting rabbit, the polyclonal antibodies were produced. Western blot analyses showed that the antibody reacted specifically to GST-VpAPX fusion protein and the titer for this antibody is 10⁵. This research made the foundation to transform the VpAPX gene into grape plants for follow research in processing. Ling Lin, Xiping Wang: These two authors contributed equally to this work.     

Isolation and preliminary functional characterization of MxWRKY64, a new WRKY transcription factor gene from Malus xiaojinensis Cheng et Jiang

In Vitro Cellular & Developmental Biology - Plant - Malus xiaojinensis Cheng et Jiang is a special and significant germplasm resource of semi-dwarf apple in China. Abiotic stresses, such as Fe...