Cytokinin: perception,signal transduction,and role in plant growth and development

Cytokinins are essential hormones for the proper growth and development of plants. They exert their actions through the phosphorylation of two-component signaling factors. The two-component elements in cytokinin signaling display not only overlapping, but also specific functions throughout a life cycle. These elements regulate the development of shoots, roots, and inflorescence meristems inArabidopsis; shoot meristems in rice; and nodule formation in the lotus. They are also involved in interactions between plants and pathogens. In this review, we examine the mechanism for signaling events initiated by cytokinins inArabidopsis.     

油菜素内脂信号转导研究进展（综述）

介绍油菜素内酯（BR）信号转导研究的分子生物学方法及其应用,以及BR调节基因表达的机理;综述BR信号转导机制的研究进展。     

Abscisic acid perception and signaling transduction in strawberry: A model for non-climacteric fruit ripening

On basis of fruit differential respiration and ethylene effects, climacteric and non-climacteric fruits have been classically defined. Over the past decades, the molecular mechanisms of climacteric fruit ripening were abundantly described and found to focus on ethylene perception and signaling transduction. In contrast, until our most recent breakthroughs, much progress has been made toward understanding the signaling perception and transduction mechanisms for abscisic acid (ABA) in strawberry, a model for non-climacteric fruit ripening. Our reports not only have provided several lines of strong evidences for ABA-regulated ripening of strawberry fruit, but also have demonstrated that homology proteins of Arabidopsis ABA receptors, including PYR/PYL/RCAR and ABAR/CHLH, act as positive regulators of ripening in response to ABA. These receptors also trigger a set of ABA downstream signaling components, and determine significant changes in the expression levels of both sugar and pigment metabolism-related genes that are closely associated with ripening. Soluble sugars, especially sucrose, may act as a signal molecular to trigger ABA accumulation through an enzymatic action of 9-cis-epoxycarotenoid dioxygenase 1 (FaNCED1). This mini-review offers an overview of these processes and also outlines the possible, molecular mechanisms for ABA in the regulation of strawberry fruit ripening through the ABA receptors.     

表皮生长因子受体EGFR及其信号传导

表皮生长因子受体(epidermalgrowthfactorreceptor,EGFR)是ErbB家族成员之一,具有酪氨酸激酶活性,是一种重要的跨膜受体。EGFR被配体激活后启动胞内信号传导,经过细胞质中衔接蛋白、酶的级联反应,调节转录因子激活基因的转录,指导细胞迁移、黏附、增殖、分化、凋亡,且与肿瘤的形成和恶化密切相关。本文对EGFR的结构特性、几种重要的信号通路及各个信号通路之间的交联,以及信号的衰减等方面的研究进展进行了综述。     

ROS perception in Arabidopsis thaliana: the ozone-induced calcium response

Ozone is responsible for more crop losses than any other air pollutant. The changes in gene expression, which occur in plants in response to ozone, have been well characterized, yet little is known about how ozone is perceived or the signal transduction steps that follow. The earliest characterized response to ozone is an elevation in cytosolic-free calcium, which takes place within seconds of exposure. In this study, the calcium response to ozone was investigated in Arabidopsis thaliana seedlings using a variety of fumigation protocols. Ozone elicited distinct calcium responses in the aerial tissue and roots of seedlings. The calcium response in the cotyledons and leaves was biphasic and sensitive to the rate at which the ozone concentration increased. The response in the root was monophasic and insensitive to the rate of increase in ozone concentration. Experiments utilizing inhibitors of antioxidant metabolism demonstrated that the magnitude of the first peak in calcium in the aerial tissues was dependent upon the redox status of the plant. Seedlings were shown to be able to distinguish between ozone and hydrogen peroxide, producing a calcium signal in response to one of these reactive oxygen species (ROS) when they had become refractory to the other. Pre-treatment with ozone altered the calcium response to hydrogen peroxide and vice versa, indicating that the calcium response to a given ROS may reflect the stress history of the plant. These data suggest ROS signalling is more sophisticated than previously realized and raise questions over current models of ozone perception.     

毛竹茎秆伸长过程中赤霉素生物合成、降解和信号转导关键基因的鉴定及表达分析

赤霉素(Gibberellin)是一类非常重要的植物激素,在高等植物生命活动的整个周期都起着重要的调控作用。从毛竹Phyllostachys edulis基因组中共鉴定出23个赤霉素途径基因,包括赤霉素生物合成相关的8个GA20ox和1个GA3ox基因、降解相关的8个GA2ox基因、参与赤霉素感知的2个GID1基因以及信号转导的2个GID2基因和2个DELLA基因。拟南芥、水稻和毛竹的系统进化树和保守基序分析显示赤霉素的合成代谢与信号转导在这些物种中是高度保守的。利用外源赤霉素处理毛竹种子和幼苗,发现赤霉素能显著提高种子的萌发率和幼苗的茎秆伸长,并且有着最佳的作用浓度。在GA3处理后,毛竹体内赤霉素生物合成基因GA20ox和GA3ox表达量均下调而降解活性赤霉素的GA2ox基因表达量上调;赤霉素受体GID1和正调控基因GID2的转录水平显著提高而负调控基因DELLA的表达受到抑制。这些基因在竹笋茎秆的不同形态学位置表达差异明显,大部分赤霉素生物合成与降解的相关基因GA20ox、GA3ox和GA2ox以及赤霉素受体GID1和正调控基因GID2都在竹笋的形态学上端大量表达,而赤霉素信号转导的阻遏基因DELLA在笋体形态学底端大量积累而顶端基本不表达。     

Auxin perception and signal transduction

The action of auxin on whole plants is very complex, but we are starting to understand how some of the earliest events are signalled in single cells. There is now good evidence that auxin induces rapid events at the plasma membrane by binding to a population of the auxin-binding protein ABPI, which is associated with a membrane-spanning docking protein, possibly a G-protein-coupled receptor (GPCR). ABPI is targeted to the endoplasmic reticulum (ER) lumen, but it does not appear to bind auxin within the ER and its function (if any) in this location is unknown. It is also not known how the protein reaches the cell surface, but it is possible that it is exported together with its docking protein. Binding of auxin causes a conformational change affecting the C-terminus of ABPI and it is likely that this change serves to activate the receptor at the plasma membrane. The signal transduction pathway appears to involve activation of phospholipase A₂(PLA₂) leading to the production of lipid second messengers which activate the plasma membrane proton ATPase (H⁻-ATPase) by a phosphorylation-dependent mechanism. Branch points exist that could potentially lead from this pathway to responses in the nucleus, but there is not yet any firm evidence that ABP1 is involved in such responses. Since intracellular auxin concentrations are correlated with sensitivity in some cases, it is possible that there is also a site of auxin perception inside the cell.     

PAF受体及其信号传导

血小板激活因子是一种强力的磷脂介质,普遍认为它经其特异受体而起作用．最近已克隆出PAF膜受体的cDNA．文章综述了有关PAF受体及其信号传导研究的新进展.     

Gibberellin Signal Transduction in Rice

In the past decade, significant knowledge has accumulated regarding gibberellin （GA） signal transductlon In rice as a result of studies using multiple approaches, particularly molecular genetics. The present review highlights the recent developments In the identification of GA signaling pathway components, the discovery of GA-Induced destructlon of GA signaling repressor （DELLA protein）, and the possible mechanism underlying the regulation of GA- responsive gene expression in rice.     

昆虫对气味分子的感受机制

昆虫对外界气味的感受作用是一个庞大而复杂的体系,多种蛋白参与了这一过程。其中包括气味结合蛋白,气味结合蛋白受体,气味降解酶等多种蛋白。昆虫不仅可以通过外界气味分子携带的信息来识别配偶,天敌,还可以通过对外界环境特征的识别来寻找食物来源,产卵等。明确昆虫的化学感受机制不仅可以帮助我们理解昆虫的行为,还有助于深入了解动物的行为机制。文章综述昆虫对气味分子的识别、气味分子在昆虫体内的运输以及电化学信号传导机制等方面的进展。     

Rcs双组分调节系统对细菌环境应答的分子调控研究进展

荚膜异多糖酸合成调节(Regulator of Capsule Synthesis,Rcs)系统是存在于许多肠杆菌科细菌中非典型的双组分调节系统,由3种核心蛋白(跨膜感应激酶RcsC、跨膜蛋白RcsD和响应调节剂RcsB)及多种辅助蛋白共同构成.Rcs系统能整合环境信号、调节基因表达并改变细菌的生理行为.近年来,对细菌...     

植物体内干旱信号的传递与基因表达

干旱是严重影响植物生长发育的重要环境胁迫因子之一。干旱能影响植物的水分状态,使植物缺水遭受伤害。近年来,相继从拟南芥等植物中克隆出了一些受干旱诱导的基因,如蛋白激酶基因、光合基因、渗透调节基因、功能蛋白基因（如LEA基因）等。干旱等胁迫信号经历一系列的传递过程,最后诱导这些特定基因的表达。在植物体中,可能存在依赖ABA型和不依赖ABA型两条干旱信号的传递途径。近年来从高等植物中分离出一系列调控干旱相关基因表达的转录因子,通过转录因子之间以及与其它相关蛋白之间的相互作用,激活或抑制干旱等胁迫因子诱导的基因表达。     

Temperature perception and signal transduction in plants

Plants can show remarkable responses to small changes in temperature, yet one of the great unknowns in plant science is how that temperature signal is perceived. The identity of the early components of the temperature signal transduction pathway also remains a mystery. To understand the consequences of anthropogenic environmental change we will have to learn much more about the basic biology of how plants sense temperature. Recent advances show that many known plant-temperature responses share common signalling components, and suggest ways in which these might be linked to form a plant temperature signalling network.     

The reactive oxygen species network pathways: an essential prerequisite for perception of pathogen attack and the acquired disease resistance in plants

Availability of complete Arabidopsis(Arabidopsis thaliana) and rice(Oryza sativa) genome sequences, together with molecular recourses of functional genomics and proteomics have revolutionized our understanding of reactive oxygen species (ROS) signalling network mediating disease resistance in plants. So far, ROS have been associated with aging, cellular and molecular alteration in animal and plant cells. Recently, concluding evidences suggest that ROS network is essential to induce disease resistance and even to mediate resistance to multiple stresses in plants. ROS are obligatory by-products emerging as a result of normal metabolic reactions. They have the potential to be both beneficial and harmful to cellular metabolism. Their dual effects on metabolic reactions are dosage specific. In this review we focus our attention on cellular ROS level to trigger beneficial effects on plant cells responding to pathogen attack. By exploring the research related contributions coupled with data of targeted gene disruption, and RNA interference approaches, we show here that ROS are ubiquitous molecules of redox-pathways that play a crucial role in plant defence mechanism. The molecular prerequisites of ROS network to activate plant defence system in response to pathogen infections are here underlined. Bioinformatic tools are now available to scientists for high throughput analysis of cellular metabolisms. These tools are used to illustrate crucial ROS-related genes that are involved in the defence mechanism of plants. The review describes also the emerging findings of ROS network pathways to modulate multiple stress resistance in plants.     

Role of the JAK/STAT signal transduction pathway in the regulation of gene expression in CNS

Over the last 20 years the JAK/STAT signal transduction pathway has been extensively studied. An enormous amount of data on different cell signal transduction pathways is now available. The JAK/STAT signal transduction pathway is one of the intracellular signaling pathways activated by cytokines and growth factors that was first studied in the hematopoietic system, but recent data demonstrate that this signal transduction is also greatly utilized by other systems. The JAK/STAT pathway is a signaling cascade that links the activation of specific cell membrane receptors to nuclear gene expression. This review is focused on the role of JAK/STAT signal transduction pathway activation in the central nervous system (CNS).     

The role of calcium ions in gravity singal perception and transduction

Ca²⁺ is implicated as a messenger in coupling various environmental stimuli, such as gravity and light, to response. In recent years, it has become evident that Ca²⁺ plays a central role in all three phases of gravitropism – perception, transduction and response. The root cap, which is known to contain high amounts of Ca²⁺ and calmoduin, is the primary site of gravity preeception. The possible role of phosphoinositide turnovr and Ca²⁺ and Ca²⁺ calmodulin-dependent enzymes such as Ca²⁺– ATPase and protein kinases in gravitropsim is discussed. A model is proposed to describe the role of Ca²⁺ in both normal and light-dependnt gravity response in roots.     

Endosomes,receptor tyrosine kinase internalization and signal transduction

Upon the binding of insulin or epidermal growth factor to their cognate receptors on the liver parenchymal plasmalemma, signal transduction and receptor internalization are near co-incident. Indeed, the rapidity and extent; of ligand mediated receptor internalization into endosomes in liver as well as other organs predicts that signal transduction is regulated at this intracellular locus. Although internalization has been thought as a mechanism to attenuate ligand mediated signal transduction responses, detailed studies of internalized receptors in isolated liver endosomes suggest an alternative scenario whereby selective signal transduction pathways can be accessed at this locus.     

Signal perception, differential expression within multigene families and the molecular basis of phenotypic plasticity

Abstract. This Introduction to the Special Issue of Plant, Cell and Environment on 'Sensing the Environment'is concerned with the molecular mechanisms that may link the perception of environmental signals with the evocation of those specific developmental responses that collectively are known as phenotypic plasticity. The significance of phenotypic plasticity at the evolutionary, developmental and ecological levels is outlined, and it is argued that the extent of an individual's adaptability to environmental conditions must be a reflection of the extent and sophistication of the controls over the synthesis and action of specific proteins. Reviewing evidence from a selected range of plant enzymes and regulatory proteins, it is proposed that differential regulation of the expression of members of multigene families may represent the molecular basis of phenotypic plasticity.