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.     

EST-based in silico identification and in vitro test of antimicrobial peptides in Brassica napus

Background

Brassica napus is the third leading source of vegetable oil in the world after soybean and oil palm. The accumulation of gene sequences, especially expressed sequence tags (ESTs) from plant cDNA libraries, has provided a rich resource for genes discovery including potential antimicrobial peptides (AMPs). In this study, we used ESTs including those generated from B. napus cDNA libraries of seeds, pathogen-challenged leaves and deposited in the public databases, as a model, to perform in silico identification and consequently in vitro confirmation of putative AMP activities through a highly efficient system of recombinant AMP prokaryotic expression.

Results

In total, 35,788 were generated from cDNA libraries of pathogen-challenged leaves and 187,272 ESTs from seeds of B. napus, and the 644,998 ESTs of B. napus were downloaded from the EST database of PlantGDB. They formed 201,200 unigenes. First, all the known AMPs from the AMP databank (APD2 database) were individually queried against all the unigenes using the BLASTX program. A total of 972 unigenes that matched the 27 known AMP sequences in APD2 database were extracted and annotated using Blast2GO program. Among these unigenes, 237 unigenes from B. napus pathogen-challenged leaves had the highest ratio (1.15 %) in this unigene dataset, which is 13 times that of the unigene datasets of B. napus seeds (0.09 %) and 2.3 times that of the public EST dataset. About 87 % of each EST library was lipid-transfer protein (LTP) (32 % of total unigenes), defensin, histone, endochitinase, and gibberellin-regulated proteins. The most abundant unigenes in the leaf library were endochitinase and defensin, and LTP and histone in the pub EST library. After masking of the repeat sequence, 606 peptides that were orthologous matched to different AMP families were found. The phylogeny and conserved structural motifs of seven AMPs families were also analysed. To investigate the antimicrobial activities of the predicted peptides, 31 potential AMP genes belonging to different AMP families were selected to test their antimicrobial activities after bioinformatics identification. The AMP genes were all optimized according to Escherichia coli codon usage and synthetized through one-step polymerase chain reaction method. The results showed that 28 recombinant AMPs displayed expected antimicrobial activities against E. coli and Micrococcus luteus and Sclerotinia sclerotiorum strains.

Conclusion

The study not only significantly expanded the number of known/predicted peptides, but also contributed to long-term plant genetic improvement for increased resistance to diverse pathogens of B.napus. These results proved that the high-throughput method developed that combined an in silico procedure with a recombinant AMP prokaryotic expression system is considerably efficient for identification of new AMPs from genome or EST sequence databases.

Electronic supplementary material

The online version of this article (doi:10.1186/s12864-015-1849-x) contains supplementary material, which is available to authorized users.     

Analysis of expressed sequence tags from grapevine flower and fruit and development of simple sequence repeat markers

A total of 6,230 EST sequences were produced from 7,561 clones in a cDNA library generated from grapevine (Vitis vinifera cv. ‘Summer Black’) flower and fruit tissues in this study. After cluster and assembly analysis of the datasets, 3,582 unigenes (GenBank accession numbers GW836604–GW840185) were established, among which 381 were new grapevine EST sequences. Out of the 381 new ESTs, 289 could be mapped on the 19 grapevine chromosomes. 913 unique ESTs with known or putative functions were assigned to 11 putative cellular roles. 540 potentially workable grapevine EST-SSRs were developed from 3,582 unigenes and about 42.6% of these unigenes were identified as true-to-type SSR loci and could amplify polymorphic bands from 22 individual plants of V. vinifera L, indicating that grapevine EST datasets are a valuable source for the development of functional simple sequence repeat (SSR) markers.     

大白菜霜霉菌诱导抑制性消减杂交cDNA文库的构建和分析

以抗霜霉病大白菜双单倍体系（DH）‘T12-19’为材料,构建了霜霉病诱导表达的正向抑制性消减文库,并利用反向Northern斑点杂交技术对768个阳性克隆进行了筛选,共获得57个病原菌诱导上调表达的克隆。测序后得到55条通读表达序列标签（ESTs）,对这些ESTs序列进行聚类和拼接分析,共获得50个unigenes。Blast分析表明,37个unigenes与已知基因高度同源,占全部非重复序列的67.3%。对已知功能基因按MIPS的分类方法进行功能分类,发现这些基因的功能主要涉及物质与能量代谢、转录调控、蛋白质合成与代谢、膜及转运、信号转导、抗病防御等。为了验证文库筛选结果的可靠性,采用实时荧光定量PCR技术分析了其中2个克隆BFCH10和BFIA7的表达谱。结果表明,这2个克隆在接种病菌6h后明显上调表达,与反向Northern斑点杂交结果基本一致。