拟南芥WRKY61转录因子的转录活性与互作蛋白分析

该研究采用双荧光素酶报告系统、酵母双杂交和双分子荧光互补实验,对拟南芥AtWRKY61的转录活性及与AtWRKY61转录因子的互作蛋白进行了分析,并用qRT-PCR方法分析AtWRKY61对多种非生物逆境的响应特征,为进一步揭示AtWRKY61的功能与分子调控机制奠定基础。绿色荧光蛋白介导的亚细胞定位分析显示,AtWRKY61定位于细胞核内;基于原生质体的双荧光素酶报告系统和酵母实验发现,AtWRKY61具有转录抑制活性。qRT-PCR分析表明,AtWRKY61对多种非生物逆境的处理具有明显的响应,可能是在多条信号通路中发挥作用。酵母双杂交与双分子荧光互补分析表明,AtWRKY61与自身以及同组的AtWRKY9和AtWRKY72存在互作关系,暗示可能通过形成WRKY复合物来行使特定的转录抑制功能。     

植物中逆境反应相关的WRKY转录因子研究进展

WRKY转录因子是植物体内一类比较大的转录因子家族,它在植物的生长发育以及抗逆境反应中起着非常重要的作用。本文综述了WRKY转录因子在植物应对冻害、干旱、盐害等非生物胁迫与病原菌、虫害等生物胁迫反应中的重要调控功能,并概括了WRKY转录因子在调控这些逆境反应中的机制。     

Large-scale identification of leaf senescence-associated genes

Leaf senescence is a form of programmed cell death, and is believed to involve preferential expression of a specific set of "senescence-associated genes" (SAGs). To decipher the molecular mechanisms and the predicted complex network of regulatory pathways involved in the senescence program, we have carried out a large-scale gene identification study in a reference plant, Arabidopsis thaliana. Using suppression subtractive hybridization, we isolated approximately 800 cDNA clones representing SAGs expressed in senescing leaves. Differential expression was confirmed by Northern blot analysis for 130 non-redundant genes. Over 70 of the identified genes have not previously been shown to participate in the senescence process. SAG-encoded proteins are likely to participate in macromolecule degradation, detoxification of oxidative metabolites, induction of defense mechanisms, and signaling and regulatory events. Temporal expression profiles of selected genes displayed several distinct patterns, from expression at a very early stage, to the terminal phase of the senescence syndrome. Expression of some of the novel SAGs, in response to age, leaf detachment, darkness, and ethylene and cytokinin treatment was compared. The large repertoire of SAGs identified here provides global insights about regulatory, biochemical and cellular events occurring during leaf senescence.     

PSKR1 and PSY1R-mediated regulation of plant defense responses

Plant peptide signaling is an upcoming topic in many areas of plant research. Our recent findings show that the tyrosine sulfated peptide receptors PSKR1 and PSY1R are not only involved in growth and development but also in plant defense. They modulate salicylate- and jasmonate-dependent defense pathways in an antagonistic manner and this phenomenon might be dependent on the age and developmental stage of the plant. Here we discuss how the endogenous peptides might integrate growth, wounding, senescence and the opposing defense pathways against biotrophic and necrotrophic pathogens for increased fitness of the plant.     

AtWRKY63基因过表达拟南芥对核盘菌抗性的研究

为研究草酸在核盘菌致病过程中可能的作用,以模式植物拟南芥为材料,采用30mmol/L草酸喷施3周龄拟南芥,发现草酸显著诱导拟南芥AtWRKY63的表达。通过构建AtWRKY63过表达载体转化拟南芥,获得过表达AtWRKY63的纯系转基因植株,再用核盘菌活体接种拟南芥,结果表明过表达AtWRKY63植株对核盘菌的抗性显著增强。组织化学染色结果表明,AtWRKY63是通过诱导植物的氧爆发,抑制核盘菌菌丝的生长来抵御核盘菌的侵染;qRT-PCR对拟南芥转录水平分析表明,AtWRKY63可能激活了过表达植株的水杨酸与茉莉酸依赖的抗病信号途径,从而增强对核盘菌的抗性。     

Isolation of ESTs from cacao (<Emphasis Type="Italic">Theobroma cacao</Emphasis> L.) leaves treated with inducers of the defense response

Pathogenic diseases represent a major constraint to the growth and yield of cacao (Theobroma cacao L.). Ongoing research on model plant systems has revealed that defense responses are activated via signaling pathways mediated by endogenous signaling molecules such as salicylic acid, jasmonic acid and ethylene. Activation of plant defenses is associated with changes in the expression of large numbers of genes. To gain a better understanding of defense responses in cacao, we have employed suppressive subtractive hybridization (SSH) cDNA libraries, macroarray hybridization analysis, high throughput DNA sequencing and bioinformatics to identify cacao genes induced by these signaling molecules. Additionally, we investigated gene activation by a phytotoxic elicitor-like protein, Nep1. We have identified a unigene set of 1,256 members, including 330 members representing genes induced during the defense response.Electronic Supplementary Material Electronic supplementary material is available in the online version of this article at Sequences presented here are deposited with GenBank under accession numbers CF972636–CF974749     

拟南芥AtWRKY25、AtWRKY26和AtWRKY33在非生物胁迫条件下的表达分析

WRKY 转录因子家族在调控植物逆境诱导反应、生长发育及其信号转导等方面起着重要的分子生物学功能。文章采用Northern 杂交的方法, 对拟南芥3个WRKY基因进行表达谱分析。结果表明: AtWRKY25、AtWRKY26和AtWRKY33受多种非生物逆境因子(温度因子、高盐、渗透胁迫和激素脱落酸)的影响, 其中低温和高盐对AtWRKY25、AtWRKY26和AtWRKY33的诱导尤为明显, 表明这3个AtWRKY基因可能在响应环境信号方面起着一定的作用。作为序列相似性较高的AtWRKY25、AtWRKY26和AtWRKY33对一些胁迫因子的表达模式呈现一定的相似性; 但AtWRKY33受高温的抑制和低温的快速诱导, 与另外两个基因的表达模式不同, 推测它们对温度胁迫因子的反应存在差异。此外, 对启动子序列的生物信息学分析发现, 3个基因的启动子包含多个与非生物逆境反应相关的顺式作用元件。