植物SAR和ISR中的乙烯信号转导网络

乙烯作为重要的信号分子在植物SAR和ISR中发挥重要作用。受病原物和其它激发子处理后,植物体内乙烯被合成,为内质网上一个His激酶类受体家族(Ⅰ型和Ⅱ型)所感知,在铜离子的转运活性下,乙烯与受体的结合使Raf-类Ser/Thr激酶CTR1失活。在CTR1的下游,EIN2、EIN3、EIN5/AIN1、EIN6、EIN7是乙烯反应的正调节子,负责乙烯信号的传导。EIN2编码功能未知的新的膜整合蛋白,而EIN5/AIN1、EIN6和EIN7尚未从分子水平上进行鉴定。定位在核内的DNA结合蛋白EIN3,直接作用于ERF1,调节乙烯反应基因的转录,激活植物防御素和病程相关蛋白基因的表达,使植物建立抗病性反应。     

The central role of PhEIN2 in ethylene responses throughout plant development in petunia

The plant hormone ethylene regulates many aspects of growth and development. Loss-of-function mutations in ETHYLENE INSENSITIVE2 (EIN2) result in ethylene insensitivity in Arabidopsis, indicating an essential role of EIN2 in ethylene signaling. However, little is known about the role of EIN2 in species other than Arabidopsis. To gain a better understanding of EIN2, a petunia (Petunia x hybrida cv Mitchell Diploid [MD]) homolog of the Arabidopsis EIN2 gene (PhEIN2) was isolated, and the role of PhEIN2 was analyzed in a wide range of plant responses to ethylene, many that do not occur in Arabidopsis. PhEIN2 mRNA was present at varying levels in tissues examined, and the PhEIN2 expression decreased after ethylene treatment in petals. These results indicate that expression of PhEIN2 mRNA is spatially and temporally regulated in petunia during plant development. Transgenic petunia plants with reduced PhEIN2 expression were compared to wild-type MD and ethylene-insensitive petunia plants expressing the Arabidopsis etr1-1 gene for several physiological processes. Both PhEIN2 and etr1-1 transgenic plants exhibited significant delays in flower senescence and fruit ripening, inhibited adventitious root and seedling root hair formation, premature death, and increased hypocotyl length in seedling ethylene response assays compared to MD. Moderate or strong levels of reduction in ethylene sensitivity were achieved with expression of both etr1-1 and PhEIN2 transgenes, as measured by downstream expression of PhEIL1. These results demonstrate that PhEIN2 mediates ethylene signals in a wide range of physiological processes and also indicate the central role of EIN2 in ethylene signal transduction.     

Members of the tomato LeEIL (EIN3-like) gene family are functionally redundant and regulate ethylene responses throughout plant development

The plant hormone ethylene regulates many aspects of growth, development and responses to the environment. The Arabidopsis ETHYLENE INSENSITIVE3 (EIN3) protein is a nuclear-localized component of the ethylene signal-transduction pathway with DNA-binding activity. Loss-of-function mutations in this protein result in ethylene insensitivity in Arabidopsis. To gain a better understanding of the ethylene signal-transduction pathway in tomato, we have identified three homologs of the Arabidopsis EIN3 gene (LeEILs). Each of these genes complemented the ein3-1 mutation in transgenic Arabidopsis, indicating that all are involved in ethylene signal transduction. Transgenic tomato plants with reduced expression of a single LeEIL gene did not exhibit significant changes in ethylene response; reduced expression of multiple tomato LeEIL genes was necessary to reduce ethylene sensitivity significantly. Reduced LeEIL expression affected all ethylene responses examined, including leaf epinasty, flower abscission, flower senescence and fruit ripening. Our results indicate that the LeEILs are functionally redundant and positive regulators of multiple ethylene responses throughout plant development.     

乙烯的生物合成与信号传递

乙烯是气体植物激素, 它在植物的生长发育过程中有很多作用。所以了解乙烯的生物合成及其信号转导是非常重要的。二十年来, 通过筛选有异于正常三重反应的突变体, 人们发现了乙烯信号转导的粗略轮廓。在拟南芥中, 有5个受体蛋白感受乙烯, ETR1、ERS1、ETR2、ERS2、EIN4。它们表现出功能冗余, 是乙烯信号的负调控因子, 在植物体内以二聚体的形式存在。ETR1的N端与乙烯结合时需要 铜离子(Ⅰ)的参与。尽管已经发现ETR1有组氨酸激酶活性, 而其它受体有丝氨酸/苏氨酸激酶活性, 但受体参与乙烯信号转导的机制还不是很清楚。受体与Raf类蛋白激酶CTR1相互作用, CTR1是乙烯反应的负调控因子。CTR1蛋白失活使EIN2蛋白活化。EIN2的N端是跨膜结构域, 与Nramp家族金属离子转运蛋白的跨膜结构域类似。EIN2的C端是一个新的未知结构域, 与乙烯信号途径的下游组分相互作用。EIN3位于EIN2的下游, EIN3和EILs诱导ERF1和其它转录因子的表达, 这些转录因子依次激活乙烯反应目的基因的表达, 表现出乙烯的反应。EIN3受到蛋白酶体介导的蛋白降解途径的调节。由于乙烯是一种多功能的植物激素, 其信号途径与其它信号途径有多重的交叉。     

高等植物EIN3/EILs转录因子研究进展

Ethylene-insensitive3(EIN3)和EIN3-like(EIL)蛋白是乙烯信号转导途径中重要的核转录因子。目前已经从多种高等植物中分离得到EIN3/EILs,其属于一个小的转录因子家族。这类转录因子在氨基酸序列N端高度保守,包括酸性氨基酸区、脯氨酸富集区、碱性氨基酸簇等涉及DNA结合的重要结构域,它们通过直接结合到初级乙烯反应元件(PERE)上来调节相关基因的表达。EIN3/EILs转录因子家族不同成员在不同物种间时空表达特性、表达调控模式等均有所差异,各成员主要参与调节植物对乙烯的反应,包括影响幼苗的"三重反应"、植株的生长发育等,并作为乙烯与其他信号间交叉点发挥重要作用。就近几年关于高等植物EIN3/EILs转录因子的研究进展进行综述,以期为后续研究提供理论依据。     

拟南芥乙烯信号转导机理的遗传学和化学生物学研究

乙烯信号途径的建立得益于一系列的突变体研究,EIN3是乙烯信号转导通路的核心转录因子,EIN3的蛋白质含量严格受F-BOX蛋白EBF1/EBF2的降解调控。为了进一步挖掘乙烯信号途径的新组分和深入研究EIN3及其下游的信号组分,作者筛选了四个不同来源的T-DNA库,并利用转基因植物EIN3ox作为遗传背景,进行了EIN3下游的抑制子筛选工作,还利用化学遗传学的方法筛选了四个小分子库。     

Rain-, wind-, and touch-induced expression of calmodulin and calmodulin-related genes in Arabidopsis

In response to water spray, subirrigation, wind, touch, wounding, or darkness, Arabidopsis regulates the expression of at least four touch-induced (TCH) genes. Ten to thirty minutes after stimulation, mRNA levels increase up to 100-fold. Arabidopsis plants stimulated by touch develop shorter petioles and bolts. This developmental response is known as thigmomorphogenesis. TCH 1 cDNA encodes the putative Arabidopsis calmodulin differing in one amino acid from wheat calmodulin. Sequenced regions of TCH 2 and TCH 3 contain 44% and 70% amino acid identities to calmodulin, respectively. The regulation of this calmodulin-related gene family in Arabidopsis suggests that calcium ions and calmodulin are involved in transduction of signals from the environment, enabling plants to sense and respond to environmental changes.     

植物乙烯信号转导研究进展

过去10年,对模式植物拟南芥的分子遗传学研究建立了植物乙烯信号转导线性模型.乙烯结合到受体上,经一条MAPK级联反应和转录级联途径将信号转导而产生乙烯反应.拟南芥乙烯受体家族由5个成员构成,ETR1、ERS1、ETR2、ERS2和EIN4.乙烯受体包括三个结构域:乙烯结合结构域、组氨酸激酶结构域和反应调控结构域.乙烯受体定位于内质网,与CTR1协同负调控乙烯反应.ENI2、EIN3/EIL、ERF1依次位于CTR1下游,正调控乙烯反应.EIN3属于转录激活因子调控蛋白家族,受转录后调控.乙烯稳定EIN3结构,EBF1/EBF2促进EIN3分解.ERF1是转录调控因子家族成员之一,是EIN3/EIL的直接作用目标.