Plant defensins

Plant defensins are small, basic peptides that have a characteristic three-dimensional folding pattern that is stabilized by eight disulfide-linked cysteines. They are termed plant defensins because they are structurally related to defensins found in other types of organism, including humans. To date, sequences of more than 80 different plant defensin genes from different plant species are available. In Arabidopsis thaliana, at least 13 putative plant defensin genes (PDF) are present, encoding 11 different plant defensins. Two additional genes appear to encode plant defensin fusions. Plant defensins inhibit the growth of a broad range of fungi but seem nontoxic to either mammalian or plant cells. Antifungal activity of defensins appears to require specific binding to membrane targets. This review focuses on the classification of plant defensins in general and in Arabidopsis specifically, and on the mode of action of plant defensins against fungal pathogens.     

Plant defensins: Common fold,multiple functions

Plant defensins represent a large class of structurally similar peptides found throughout the plant kingdom. Despite a conserved cysteine spacing pattern and three-dimensional structure, their sequences are highly divergent and they display a range of activities including antifungal and antibacterial activities, enzyme inhibitory activities as well as roles in heavy metal tolerance and development. The vast number of sequences along with their diverse range of activities makes it impossible to test the activity and assign function to all plant defensins. However, as the number of characterized defensins increases, in depth sequence analysis may allow us to predict the function of newly identified peptides. In this review, we analyze the sequences of defensins whose activities have been described and group these based on similarity using a maximum-likelihood phylogenetic tree. We also compare the amino acids that have been described as essential for the activity of various plant defensins between these groups. While many more plant defensins will need to be characterized before we can develop rules to predict the activity of novel sequences, this approach may prove useful in identifying structure–function relationships.     

Plant defensins: Common fold,multiple functions

Plant defensins represent a large class of structurally similar peptides found throughout the plant kingdom. Despite a conserved cysteine spacing pattern and three-dimensional structure, their sequences are highly divergent and they display a range of activities including antifungal and antibacterial activities, enzyme inhibitory activities as well as roles in heavy metal tolerance and development. The vast number of sequences along with their diverse range of activities makes it impossible to test the activity and assign function to all plant defensins. However, as the number of characterized defensins increases, in depth sequence analysis may allow us to predict the function of newly identified peptides. In this review, we analyze the sequences of defensins whose activities have been described and group these based on similarity using a maximum-likelihood phylogenetic tree. We also compare the amino acids that have been described as essential for the activity of various plant defensins between these groups. While many more plant defensins will need to be characterized before we can develop rules to predict the activity of novel sequences, this approach may prove useful in identifying structure–function relationships.     

植物G蛋白与植物防卫反应

近年来, 植物G蛋白(包括异三聚体G蛋白和小G蛋白)的存在及其信号调控途径已经成为人们研究细胞信号转导过程的热点问题。从多种植物细胞中相继分离克隆出多个与动物G蛋白同源的编码植物G蛋白的基因, 并且植物G蛋白的种类和数量有其独特性。植物G蛋白在植物细胞跨膜信号转导中发挥重要的作用, 参与多种生命活动的调控。本文主要综述了植物G蛋白参与植物防卫反应调节作用的研究进展。     

Recent advances in the research and development of human defensins

Human defensins are a family of cationic antimicrobial peptides with molecular weights of 4-5 kDa, containing a conserved six disulphide-linked cysteine motif. During the last two decades a series of endogenous alpha- and beta-human defensins were discovered. They exhibit a broad range of antimicrobial properties and are thought to be ideal therapeutic agents because of their potential ability to circumvent the problems of acquired resistance often observed with other antimicrobial therapies. Because of their appealing medical and pharmaceutical potential there has been an emphasis on human defensins in medical and molecular biology research in recent years. This paper aims to present a comprehensive review of recent advances in the study of human defensins including their discovery, classification, molecular properties, expression, mechanisms of action and potential medical applications. In addition, the advances in producing human defensins via genetic engineered cells are summarized from research works in our group (besides host cells including E. coli, B. subtilis and yeast systems, the cell-free protein synthesis system was also employed to express human beta-defensin-2) along with other related published works. The present challenges and prospects for the potential application of human defensins are also discussed.     

茉莉素的信号转导与植物的防御反应

文章从茉莉素信号途径及其与其他信号途径交叉作用的角度 ,概括了茉莉素在植物防御反应中的作用     

Plant defensins and virally encoded fungal toxin KP4 inhibit plant root growth

Plant defensins are small, highly stable, cysteine-rich antimicrobial proteins that are thought to constitute an important component of plant defense against fungal pathogens. There are a number of such defensins expressed in various plant tissues with differing antifungal activity and spectrum. Relatively little is known about the modes of action and biological roles of these proteins. Our previous work on a virally encoded fungal toxin, KP4, from Ustilago maydis and subsequently with the plant defensin, MsDef1, from Medicago sativa demonstrated that some of these proteins specifically blocked calcium channels in both fungi and animals. The results presented here demonstrate that KP4 and three plant defensins, MsDef1, MtDef2, and RsAFP2, all inhibit root growth in germinating Arabidopsis seeds at low micromolar concentrations. We have previously demonstrated that a fusion protein composed of Rab GTPase (RabA4b) and enhanced yellow fluorescent protein (EYFP) is dependent upon calcium gradients for localization to the tips of the growing root hairs in Arabidopsis thaliana. Using this tip-localized fusion protein, we demonstrate that all four proteins rapidly depolarize the growing root hair and block growth in a reversible manner. This inhibitory activity on root and root hair is not directly correlated with the antifungal activity of these proteins and suggests that plants apparently express targets for these antifungal proteins. The data presented here suggest that plant defensins may have roles in regulating plant growth and development. A. Allen and A.K. Snyder contributed equally.     

Molecular Analysis of Plant Defense Responses to Plant Pathogens

A number of inducible plant responses are believed to contribute to disease resistance. These responses include the hypersensitive reaction, phytoalexin synthesis, and the production of chitinase, glucanase, and hydroxyproline-rich glycoproteins. Because of the coordinate induction of these responses, it has been difficult to determine whether they are functional defense responses, and if they are, how they specifically contribute to disease resistance. Recent developments in molecular biology have provided experimental techniques that will reveal the specific contribution of each response to disease resistance. In this paper, we describe a strategy to determine if the hypersensitive reaction is a functional plant defense mechanism.     

Characterization of Peanut Germin-Like Proteins,AhGLPs in Plant Development and Defense

Background

Germin-like superfamily members are ubiquitously expressed in various plant species and play important roles in plant development and defense. Although several GLPs have been identified in peanut (Arachis hypogaea L.), their roles in development and defense remain unknown. In this research, we study the spatiotemporal expression of AhGLPs in peanut and their functions in plant defense.

Results

We have identified three new AhGLP members (AhGLP3b, AhGLP5b and AhGLP7b) that have distinct but very closely related DNA sequences. The spatial and temporal expression profiles revealed that each peanut GLP gene has its distinct expression pattern in various tissues and developmental stages. This suggests that these genes all have their distinct roles in peanut development. Subcellular location analysis demonstrated that AhGLP2 and 5 undergo a protein transport process after synthesis. The expression of all AhGLPs increased in responding to Aspergillus flavus infection, suggesting AhGLPs'' ubiquitous roles in defense to A. flavus. Each AhGLP gene had its unique response to various abiotic stresses (including salt, H₂O₂ stress and wound), biotic stresses (including leaf spot, mosaic and rust) and plant hormone stimulations (including SA and ABA treatments). These results indicate that AhGLPs have their distinct roles in plant defense. Moreover, in vivo study of AhGLP transgenic Arabidopsis showed that both AhGLP2 and 3 had salt tolerance, which made transgenic Arabidopsis grow well under 100 mM NaCl stress.

Conclusions

For the first time, our study analyzes the AhGLP gene expression profiles in peanut and reveals their roles under various stresses. These results provide an insight into the developmental and defensive roles of GLP gene family in peanut.     

植物抗病毒分子机制

在与植物病毒的长期斗争中,植物进化出多种抗病毒机制,其中RNA沉默和R基因介导的病毒抗性是最受人们关注的两种机制.一方面,RNA沉默是植物抵抗病毒侵染的重要手段.植物在病毒侵染过程中可形成病毒来源的双链RNA,经过DCL蛋白的切割、加工形成sRNA,与AGO蛋白结合形成RISC指导病毒RNA的沉默,用于清除病毒.相应地,病毒在与植物的竞争中进化出RNA沉默抑制子,抑制宿主RNA沉默系统以逃避宿主RNA沉默抗病毒反应,增强致病能力.另一方面,植物也进化出R基因介导植物对包括病毒在内的多类病原的抗性.R蛋白直接或间接识别病毒因子,通过一系列的信号转导途径激活植物防御反应,限制病毒的进一步侵染.对植物抗病毒的研究有助于人们对植物抗病分子基础的理解,有重要的科学意义和潜在应用价值.本文综述了植物抗病毒分子机制的重要进展.     

RNA Interference in Plant Defense Systems

Russian Journal of Plant Physiology - Plant pests and pathogens, including viruses, reduce the biological potential of crops and undermine food safety. The methods of crop protection based on...