Structure-function Aspects of Extracellular Leucine-rich Repeat-containing Cell Surface Receptors in Plants

Plants exploit several types of cell surface receptors for perception of extracellular signals, of which the extracellular leucine-rich repeat （eLRR）-containing receptors form the major class. Although the function of most plant eLRR receptors remains unclear, an increasing number of these receptors are shown to play roles in innate immunity and a wide variety of developmental processes. Recent efforts using domain swaps, gene shuffling analyses, site-directed mutagenesis, interaction studies, and crystallographic analyses resulted in the current knowledge on ligand binding and the mechanism of activation of plant eLRR receptors. This review provides an overview of eLRR receptor research, specificallysummarizing the recent understanding of interactions among plant eLRR receptors, their co-receptors and corresponding ligands. The functions of distinct eLRR receptor domains, and their role in structure, ligand perception and multimeric complex formation are discussed.     

植物富含亮氨酸重复序列型类受体蛋白激酶的生物学功能

介绍了植物富含亮氨酸重复序列(leucine-rich repeat,LRR)型类受体蛋白激酶概念、最近发现的这类蛋白激酶的亚结构域特征;总结了目前已确定其功能的LRR型类受体蛋白激酶,并分别阐述了它们在参与植物抗逆性反应、发育调控及激素的信号转导等过程中的生物学功能;着重介绍和讨论了LRR型类受体蛋白激酶复合物之间及其与下游成分KAPP之间互作而产生信号传递的分子机理.最后展望了LRR型类受体蛋白激酶生物学功能、信号转导机制、以及应用于生产实践的研究前景.     

Leucine-rich Repeat Receptor-like Kinases in Plants

Plant leucine-rich repeat receptor-like kinases were identified from databases using computer programs. Sequence comparison indicated that consensus sequences of the leucine-rich repeat motifs are highly conserved among these proteins. Multiple alignment of the catalytic kinase domains of all sequences displayed an overall amino acid sequence similarity. A phylogenetic analysis indicated that leucine- rich repeat receptor-like kinases form four subgroups in plants.     

CLE Peptides in Plants: Proteolytic Processing,Structure-Activity Relationship,and Ligand-Receptor Interaction

Ligand-receptor signaling initiated by the CLAVATA3/ ENDOSPERM SURROUNDING REGION (CLE) family peptides is critical in regulating cell division and differentiation in meristematic tissues in plants. Biologically active CLE peptides are released from precursor proteins via proteolytic processing. The mature form of CLE ligands consists of 12–13 amino acids with several post-translational modifications. This review summarizes recent progress toward understanding the proteolytic activities that cleave precursor proteins to release CLE peptides, the molecular structure and function of mature CLE ligands, and interactions between CLE ligands and corresponding leucine-rich repeat (LRR) receptor-like kinases (RLKs).     

New aspects of CLAVATA2, a versatile gene in the regulation of Arabidopsis development

In order to unravel the functions of receptor-like proteins in Arabidopsis (AtRLPs), including the CLAVATA2 (CLV2) receptor, we employed a reverse genetics approach. In previous studies, we assembled a genome-wide collection of AtRLP gene T-DNA insertion mutants and reported on the biological roles of a few AtRLPs closely related to CLV2. In this study, we showed that over-expression of CLV2 in wild-type plants unexpectedly resulted in a multi-carpel phenotype, mimicking the clv2 mutant, which suggests a co-suppression effect on the endogenous CLV2. We also found evidence that the phenotypes of various clv2 alleles are significantly affected by the genetic background of Arabidopsis ecotypes, which, however, did not depend on the ER locus.     

植物凝集素类受体蛋白激酶研究进展

自然界中植物的生长发育受到各种环境变化的影响。为了响应外界各种环境条件,植物演化出一系列识别和传递环境信号的蛋白分子,其中比较典型的是植物细胞质膜上的类受体蛋白激酶(RLKs)。凝集素类受体蛋白激酶(LecRLKs)是类受体蛋白激酶家族中的一个亚族,它主要包含3个结构域:细胞外凝集素结构域、跨膜结构域和细胞内激酶结构域。根据细胞外凝集素结构域的不同,LecRLKs可分为3种不同类型:L、G和C型。近年来,研究表明LecRLKs在植物生物/非生物胁迫和发育调控中发挥非常重要的作用。该文综述了植物凝集素类受体蛋白激酶的研究历史、结构特点、分类以及生物学功能,并重点阐述凝集素类受体蛋白激酶在植物生物/非生物胁迫响应和调控发育方面的功能。对不同类型和不同功能的植物凝集素类受体蛋白激酶进行阐述将有利于对该类蛋白开展功能研究,并为作物改良提供有益借鉴。     

植物类受体激酶CrRLK1-L亚家族及其生物学功能

植物CrRLK1-L亚家族类受体激酶的胞外域具有新颖结构基序,但功能大都未知.该家族成员广泛存在于被子植物中,但在动物和微生物中不存在其同源物.CrRLK1-L家族成员相对较少,但组织表达非常广泛.它们定位于细胞质膜上,并且部分成员的定位还具有极性,这与其参与雌雄配子体的识别和受精作用密切相关.该家族成员普遍具有激酶活性,该活性对其功能的发挥至关重要.目前仅报道在拟南芥中参与助细胞与花粉的识别和调控营养组织的细胞伸长,但参与这些生物学过程的作用机制似乎独立于已知的信号通路之外,可能有自身独特的信号传导机制.所以对这一类具特有结构基序的类受体激酶基因的功能研究,将有助于解析植物特有生物学过程的分子作用机制,特别是在植物有性生殖过程中,合理利用这些分子开展育种实践对未来农业生产具有潜在的应用价值.     

水稻LRR型类受体蛋白激酶胞外区的原核表达及多克隆抗体制备

前期研究表明,水稻根尖细胞质膜类受体蛋白激酶OsRLK的表达受盐胁迫诱导.为了进一步研究该激酶的生理功能,通过反转录PCR得到OsRLK胞外区cDNA片段,将其亚克隆至pET29a原核表达载体并在大肠杆菌中实现了高表达,表达量约为细胞总蛋白的30%.重组蛋白经SDS-PAGE分离,染色切胶收集后,作为抗原免疫新西兰家兔,分离抗血清,经纯化得到1:20 000效价的多克隆抗体.Wescem blot结果显示,该抗体能特异识别在原核表达系统内表达的抗原,以及水稻根尖细胞质膜组分中的LRR型类受体蛋白激酶,并且在蛋白质水平证实该激酶为盐胁迫响应蛋白.     

对水稻4号染色体一个编码S位点相关的受体样蛋白激酶基因簇的分析

通过对水稻(Oryza sativa L.) 4号染色体一段323 kb 的序列测定和分析,在其中108 kb的区域内发现了一个由14个编码S位点相关的受体样蛋白激酶(SRK)基因组成的基因簇.RT-PCR实验证明了这14个基因中有9个基因表达,并且这9个基因有不同的表达模式: 其中2个基因主要在生殖器官中表达, 而另外7个基因在水稻的营养和生殖器官中均有表达.对这些基因的预测的氨基酸序列进行分析表明他们的细胞外受体部分均和甘蓝的SLG蛋白高度同源,而细胞内的激酶区都包含有丝氨酸/苏氨酸激酶中特异的氨基酸.     

Diverse Roles of ERECTA Family Genes n Plant Development

Multiple receptor-like kinases （RLKs） enable intercellular communication that coordinates growth and development of plant tissues. ERECTA family receptors （ERfs） are an ancient family of leucine-rich repeat RLKs that in Arabidopsis consists of three genes： ERECTA, ERL1, and ERL2. ERfs sense secreted cysteine-rich peptides from the EPF/EPFL family and transmit the signal through a MAP kinase cascade. This review discusses the functions of ERfs in stomata development, in regulation of longitudinal growth of aboveground organs, during reproductive development, and in the shoot apical meristem. In addition the role of ERECTA in plant responses to biotic and abiotic factors is examined.     

The Monocot-Specific Receptor-like Kinase SDS2 Controls Cell Death and Immunity in Rice

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植物类受体蛋白激酶的研究进展

植物类受体蛋白激酶(receptor-like protein kinase,RLKs)通过胞外结构域识别病原信号分子,发生磷酸化、去磷酸化反应而开启或关闭下游靶蛋白,调节植物固有免疫反应,诱导抗病防御反应.目前对植物类受体蛋白激酶的功能、信号传导和配体识别等方面的研究已成为该领域的重点.本文对近年来国内外有关植物类受体蛋白激酶的结构、功能及其在植物抗病防御反应中的作用研究进行综述,为今后进一步深入研究植物类受体蛋白激酶的生理生化功能及应用提供参考.     

The CLAVATA1-related BAM1, BAM2 and BAM3 receptor kinase-like proteins are required for meristem function in Arabidopsis

Organ formation at shoot and flower meristems in plants requires the maintenance of a population of centrally located stem cells and the differentiation of peripherally located daughter cells. The CLAVATA (CLV) gene products in Arabidopsis, including the CLV1 receptor-kinase, regulate this process by promoting the differentiation of stem cells on the meristem flanks. Here, we have analyzed the developmental roles of the CLV1-related BAM1 (derived from barely any meristem 1), BAM2 and BAM3 receptor-like kinases. Loss-of-function alleles of these receptors lead to phenotypes consistent with the loss of stem cells at the shoot and flower meristem, suggesting that their developmental role is opposite to that of CLV1. These closely related receptors are further distinguished from CLV1, whose expression and function is highly specific, by having broad expression patterns and multiple developmental roles. These include a requirement for BAM1, BAM2 and BAM3 in the development of high-ordered vascular strands within the leaf and a correlated control of leaf shape, size and symmetry. In addition, BAM1, BAM2 and BAM3 are required for male gametophyte development, as well as ovule specification and function. Significantly, the differing roles of CLV1 and BAM receptors in meristem and organ development are largely driven by differences in expression patterns.     

类受体蛋白激酶与植物非生物胁迫应答

类受体蛋白激酶(receptor-like protein kinase,RLK)是植物信号转导网络中的重要成员,参与介导生长、发育以及逆境胁迫应答等多种细胞代谢过程．在植物细胞中已发现和克隆了富含亮氨酸重复区型(LRR)、凝集素型(lectin-like)和细胞壁相联型(WAK)等不同的RLK亚家族．这些RLK能够感受多种发育和外界环境胁迫信号, 并在植物对非生物胁迫的响应过程中发挥重要的调控作用．本文结合当今国内外研究进展,简述植物RLK的典型结构域特征,详细介绍多种RLK在植物逆境信号识别与转导中发挥的作用,同时对RLK在非生物胁迫应答中的具体作用机制进行了探讨．     

Receptor-Like Kinases in Plant Innate Immunity

Plants employ a highly effective surveillance system to detect potential pathogens, which is critical for the success of land plants in an environment surrounded by numerous microbes. Recent efforts have led to the identification of a number of immune receptors and components of immune receptor complexes. It is now clear that receptor-like kinases （RLKs） and receptor-like proteins （RLPs） are key pattern-recognition receptors （PRRs） for microbe- and plant-derived molecular patterns that are associated with pathogen invasion. RLKs and RLPs involved in immune signaling belong to large gene families in plants and have undergone lineage specific expansion. Molecular evolution and population studies on phytopathogenic molecular signatures and their receptors have provided crucial insight into the co-evolution between plants and pathogens.     

类受体激酶FER调节植物与病原菌相互作用的分子机制

植物细胞依赖细胞质膜上的受体感知并传递环境信号,而受体通过与配体特异结合启动一系列下游信号转导途径,维持植物正常的生命活动及其对外界环境变化的适应。类受体激酶是其中一类重要受体,通常由胞外结合结构域、跨膜结构域和胞内激酶结构域3部分组成,是植物适应外界环境变化的重要调节枢纽。FER属于CrRLK1L类受体蛋白激酶家族,...     

Identification, Expression and Functional Analysis of a Receptor-like Cytoplasmic Kinase, OsRLCK1, in Rice

Pollination involves a series of complex cellular interactions and signal transduction events. Numerous reports have suggested a central role for protein kinases in pollen germination and pollen tube growth and a large number of receptor-like kinases have been detected exclusively in pollen in higher plants. However, few are well characterized, especially for the receptor-like cytoplasmic kinases. Here we report a receptor-like kinase gene, OsRLCK1, which belongs to the receptor-like cytoplasmic kinase Ⅷ subfamily. Real-time quantitative polymerase chain reaction analysis and whole mount RNA in situ hybridization showed that OsRLCK1 is a pollen-specific gene and expressed only in the mature pollen. When expressed in the onion epidermal cells, the OsRLCK1-GFP fusion protein was diffused throughout the cell, indicating its cytoplasmic and nuclear localization. The Maltose Binding Protein-OsRLCK1 recombinant protein was found to be capable of autophosphorylation on threonine residue, showing that it encodes a functional kinase. These results suggest that OsRLCK1 is likely to play a role in a signaling pathway associated with pollen performance during pollination in rice.     

SOBIR1 requires the GxxxG dimerization motif in its transmembrane domain to form constitutive complexes with receptor‐like proteins

Receptor‐like proteins (RLPs), forming an important group of transmembrane receptors in plants, play roles in development and immunity. RLPs contain extracellular leucine‐rich repeats (LRRs) and, in contrast with receptor‐like kinases (RLKs), lack a cytoplasmic kinase required for the initiation of downstream signalling. Recent studies have revealed that the RLK SOBIR1/EVR (SUPPRESSOR OF BIR1‐1/EVERSHED) specifically interacts with RLPs. SOBIR1 stabilizes RLPs and is required for their function. However, the mechanism by which SOBIR1 associates with RLPs and regulates RLP function remains unknown. The Cf immune receptors of tomato (Solanum lycopersicum), mediating resistance to the fungus Cladosporium fulvum, are RLPs that also interact with SOBIR1. Here, we show that both the LRR and kinase domain of SOBIR1 are dispensable for association with the RLP Cf‐4, whereas the highly conserved GxxxGxxxG motif present in the transmembrane domain of SOBIR1 is essential for its interaction with Cf‐4 and additional RLPs. Complementation assays in Nicotiana benthamiana, in which endogenous SOBIR1 levels were knocked down by virus‐induced gene silencing, showed that the LRR domain as well as the kinase activity of SOBIR1 are required for the Cf‐4/Avr4‐triggered hypersensitive response (HR). In contrast, the LRRs and kinase activity of SOBIR1 are not required for facilitation of Cf‐4 accumulation. Together, these results suggest that, in addition to being a stabilizing scaffold for RLPs, SOBIR1 is also required for the initiation of downstream signalling through its kinase domain.