HrpNCSDS001基因克隆及其表达产物诱导拟南芥基因表达谱变化的研究

Erwinia carotovora subsp.carotovora CSDS001菌株具有可直接诱导烟草过敏反应特征,从构建的CSDS001菌株基因组文库,鉴定、克隆到hrpNCSDS001基因,GenBank登录号AY939927;构建的重组hrpNCSDS001基因工程菌株经IPTG诱导培养,获得的高效表达HarpinCSDS001蛋白,可诱导烟草发生过敏反应。30μg/mLHarpinCSDS001蛋白喷施拟南芥后,分析第3h、12h、24h、36h和48h拟南芥全基因谱表达动态变化,结果显示发生显著表达差异(logratio≤?1或≥1)的基因数分别为912、1787、2393、1833和1755。对被诱导发生显著表达差异的转录因子基因分析表明,有13个转录因子家族:ZIM、BES1、TCP、C2C2、AP2/EREBP、WRKY、bHLH、bZIP、GARP、MYB、NAC、HB、C2H2与HarpinCSDS001蛋白作用相关,这些转录因子家族主要参与调控植物抗性、光合作用、生长发育、开花等相关功能基因表达。     

ERF转录因子调控生物胁迫反应的研究进展

ERF家族是植物所特有的APETALA2/乙烯响应因子(APETALA2/ethylene-responsive factor,AP2/ERF)转录因子家族的一个主要亚家族,其成员结构特点是仅含有1个58-60个氨基酸组成的AP2/ERF结构域.有关该家族成员的大多数研究集中在与寒、旱等非生物胁迫方面,最近越来越多的研...     

Genome-wide analysis and identification of stress-responsive genes of the CCCH zinc finger family in Solanum lycopersicum

Zinc finger genes comprise a large and diverse gene family. Based on their individual finger structures and spacing, zinc finger proteins are further divided into different families according to their specific molecular functions. Genes in the CCCH family encode zinc finger proteins containing a motif with three cysteines and one histidine. They play important roles in plant growth and development, and in response to biotic and abiotic stresses. However, the limited analysis of the genome sequence has meant that there is no detailed information concerning the CCCH zinc finger family in tomato (Solanum lycopersicum). Here, we identified 80 CCCH zinc finger protein genes in the tomato genome. A complete overview of this gene family in tomato was presented, including the chromosome locations, gene duplications, phylogeny, gene structures and protein motifs. Promoter sequences and expression profiles of putative stress-responsive members were also investigated. These results revealed that, with the exception of four genes, the 80 CCCH genes are distributed over all 12 chromosomes with different densities, and include six segmental duplication events. The CCCH family in tomato could be divided into 12 groups based on their different CCCH motifs and into eight subfamilies by phylogenetic analysis. Analysis showed that almost all CCCH genes contain putative stress-responsive cis-elements in their promoter regions. Nine CCCH genes chosen for further quantitative real-time PCR analysis showed differential expression patterns in three representative tomato tissues. In addition, their expression levels indicated that these genes are mostly involved in the response to mannitol, heat, salicylic acid, ethylene or methyl jasmonate treatments. To the best of our knowledge, this is the first report of a genome-wide analysis of the tomato CCCH zinc finger family. Our data provided valuable information on tomato CCCH proteins and form a foundation for future studies of these proteins, especially for those members that may play important roles in stress responses.     

Targeted identification of short interspersed nuclear element families shows their widespread existence and extreme heterogeneity in plant genomes

Short interspersed nuclear elements (SINEs) are non-long terminal repeat retrotransposons that are highly abundant, heterogeneous, and mostly not annotated in eukaryotic genomes. We developed a tool designated SINE-Finder for the targeted discovery of tRNA-derived SINEs. We analyzed sequence data of 16 plant genomes, including 13 angiosperms and three gymnosperms and identified 17,829 full-length and truncated SINEs falling into 31 families showing the widespread occurrence of SINEs in higher plants. The investigation focused on potato (Solanum tuberosum), resulting in the detection of seven different SolS SINE families consisting of 1489 full-length and 870 5' truncated copies. Consensus sequences of full-length members range in size from 106 to 244 bp depending on the SINE family. SolS SINEs populated related species and evolved separately, which led to some distinct subfamilies. Solanaceae SINEs are dispersed along chromosomes and distributed without clustering but with preferred integration into short A-rich motifs. They emerged more than 23 million years ago and were species specifically amplified during the radiation of potato, tomato (Solanum lycopersicum), and tobacco (Nicotiana tabacum). We show that tobacco TS retrotransposons are composite SINEs consisting of the 3' end of a long interspersed nuclear element integrated downstream of a nonhomologous SINE family followed by successfully colonization of the genome. We propose an evolutionary scenario for the formation of TS as a spontaneous event, which could be typical for the emergence of SINE families.     

High resolution synteny maps allowing direct comparisons between the coffee and tomato genomes

Tomato (Solanum lycopersicum) and coffee (Coffea canephora) belong to the sister families Solanaceae and Rubiaceae, respectively. We report herein the mapping of a common set of 257 Conserved Ortholog Set II genes in the genomes of both species. The mapped markers are well distributed across both genomes allowing the first syntenic comparison between species from these two families. The majority (75%) of the synteny blocks are short (<4 cM); however, some extend up to 50 cM. In an effort to further characterize the synteny between these two genomes, we took advantage of the available sequence for the tomato genome to show that tomato chromosome 7 is syntenic to half of the two coffee linkage groups E and F with the putative break point in tomato localized to the boundary of the heterochromatin and euchromatin on the long arm. In addition to the new insight on genome conservation and evolution between the plant families Solanaceae and Rubiaceae, the comparative maps presented herein provide a translational tool by which coffee researchers may take benefit of DNA sequence and genetic information from tomato and vice versa. It is thus expected that these comparative genome information will help to facilitate and expedite genetic and genomic research in coffee.     

大豆转录因子GmERF5的克隆、表达及功能分析

ERF转录因子是植物中特有的转录因子家族之一, 在植物响应生物和非生物胁迫过程中发挥重要的调控作用。通过对大豆(Glycine max)吉林32未成熟胚的表达谱分析, 利用RT-PCR技术从大豆中克隆了1个新的ERF转录因子GmERF5。GmERF5具有237个氨基酸残基, 分子量为26.09 kDa, 等电点为6.85, 其开放阅读框长714 bp。该转录因子蛋白与Gh-ERF2蛋白的同源性最高, 它们同属ERF亚家族的第IV亚类。实时荧光定量PCR分析表明, 该蛋白基因在大豆的根中表达量最高, 且受干旱、高盐、低温及乙烯、脱落酸和茉莉酸甲酯的诱导上调表达。亚细胞定位实验结果表明, GmERF5蛋白定位于细胞核中。转录激活能力分析结果显示, GmERF5可以激活报告基因的表达, 为转录激活子。综合以上结果, 认为GmERF5可能作为转录调控因子参与大豆生物和非生物胁迫的应答。