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.     

水稻类受体激酶OsCR4的抗体制备及特异性检测

运用生物信息学的方法对水稻类受体激酶OsCR4的抗原性进行分析,选取胞外部分片段与GST融合,在细菌大规模诱导该融合蛋白,利用GST sepharose进行亲和层析纯化,所得蛋白使用SDS-PAGE结合KCl/DTT染色切胶的方法得到收集。以此融合蛋白作为抗原免疫新西兰兔,获得了1：512,000效价的多克隆抗体,该抗体可特异识别水稻叶片微粒体组分中的OsCR4蛋白。     

水稻抗白叶枯病基因Xa21的研究进展

Xa21是最早克隆的水稻抗病基因,作为类受体激酶类广谱抗病基因它受到广泛的关注。转基因Xa21材料,很可能成为世界上第一个被批准进行大田释放的水稻转基因材料。本文在简要回顾Xa21的发现、定位和克隆过程之后,总结了目前Xa21基因的抗病作用机理和育种应用研究现状,包括XA21蛋白质激酶的生化特性、AvrXa21的鉴别、Xa21介导的抗病途径、抗病机理等,并对今后的研究进行了展望。     

一个具有S位点的水稻类受体激酶OsSRL参与干旱胁迫反应

植物在进化过程中针对干旱、高盐和高低温等逆境胁迫形成了多种适应机制, 植物类受体激酶作为重要的细胞信号传递分子在植物生长和抗逆境胁迫中发挥着重要功能。该文发现一个具有S位点的类受体激酶基因OsSRL可能参与水稻(Oryza sativa)的干旱胁迫反应。利用RNAi技术降低OsSRL的表达水平后, 转基因植株抗旱性增强, 并表现出幼苗存活率、叶绿素含量及鲜重增加等表型。进一步的研究表明30%PEG和100 μmol·L^–1ABA可诱导OsSRL基因表达, 利用RNAi降低其表达导致干旱诱导基因RAB16A及LEA3表达水平明显增加。表达模式分析发现OsSRL在胚芽、胚根、根、茎节以及花中表达。以上结果表明, OsSRL表达水平的降低增强植物的干旱耐受性, 其作为一个S-位点样类受体激酶可能参与了水稻对干旱胁迫的反应。     

XA21和PI-D2激酶蛋白质在酿酒酵母中的表达及其自我磷酸化研究

白叶枯病和稻瘟病是最主要的水稻病害。Xa21是水稻白叶枯病抗性基因,Pi-d2是稻瘟病抗性基因,二者都编码类受体激酶蛋白质。在前期研究中,曾系统地研究了细菌中表达XA21激酶蛋白质的生化活性。在此实验中利用真核表达系统酿酒酵母对Xa21和Pi-d2编码的蛋白激酶进行了表达、纯化及自我磷酸化活性分析,为进一步的生化分析、蛋白质-蛋白质相互作用研究、底物筛选等奠定了基础。     

大豆类受体蛋白激酶基因GmRLCK的克隆及初步分析

植物类受体蛋白激酶(receptor-likeproteinkinase,RLK)在高等植物生长发育和环境刺激的信号传导中起着重要的作用。本文报告了一个新的大豆类受体蛋白激酶基因的全长cDNA克隆及对其基因结构和功能的初步分析。研究表明该基因序列编码的蛋白包含一个跨膜域、一个具有丝氨酸/苏氨酸激酶活性的胞内域和一个缺少N-末端信号肽的胞外域。采用生物信息学方法分析表明,该基因与一些拟南芥菜类受体蛋白激酶基因具有很高的相似性,这些激酶N-末端都缺少信号序列,属于植物胞质类受体激酶(receptor-likecytoplasmickinase,RLCK)亚家族。因此命名该大豆基因为GmRLCK(GenBankAccessionNo.AY687390)。对GmRLCK激酶域中磷酸化可能性较高的位点进行了预测。RT-PCR的结果表明,GmRLCK在大豆子叶、根、花以及豆荚中都有较高的表达,而在胚根、茎和成熟叶片中的表达相对较弱。进化分析表明GmRLCK与一些衰老相关的植物类受体蛋白激酶具有较近的亲缘关系。     

水稻白叶枯病抗性基因Xa21和稻瘟病抗性基因Pi-d2激酶蛋白质在毕赤酵母中的表达及条件优化

【目的】白叶枯病和稻瘟病是最主要的水稻病害,Xa21是水稻白叶枯病抗性基因,Pi-d2是稻瘟病抗性基因,二者都编码类受体激酶蛋白质。本研究旨在毕赤酵母系统中表达XA21和PI-D2激酶蛋白质。【方法】用Xa21和Pi-d2的激酶区PCR产物,构建了pPICZαA-Xa21K、pPICZαA-Pi-d2K重组质粒,酶切及测序验证后,将重组质粒线性化,转化到毕赤酵母菌株中,系统地比较了不同酵母菌株(KM71、GS115、X33),不同甲醇浓度(1%、2%、3%),不同pH(pH5、pH6、pH7、pH8)值,不同诱导时间(24h、48h、72h)条件下激酶蛋白质的表达情况。【结果】XA21和PI-D2激酶蛋白质可以在毕赤酵母中表达,但表达的蛋白质不能分泌到培养基上清中,而只能在菌体中检测到,对表达条件的系统比较发现,毕赤酵母菌株KM71和X33、2%的甲醇诱导浓度、pH5和48h以上的诱导时间有利于激酶蛋白质的表达,最后我们在酵母裂解物上清中获得了纯化的考染可见的激酶蛋白质。【结论】在毕赤酵母中表达了XA21和PI-D2激酶蛋白质,为下一步生化特性研究奠定了基础。     

两个大豆类受体蛋白激酶基因的克隆及其结构和功能的初步分析

利用高等植物类受体蛋白激酶基因的保守域设计简并引物的通过RT-PCR方法,从大豆叶片中克隆到两个新的,可能的类受体蛋白激酶基因的部分cDNA片段。对其基因结构的分析表明：在RLPK2的激酶保守域Vib与Ⅸ之间有一个407bp长的内含子。利用RT-PCR方法对它们的表达特性进行初步研究。发现这两个基因可能参与了对大豆叶片衰老和/或细胞分裂素延缓衰老过程的调节机制。     

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 (OryzasativaL .) 4号染色体一段 32 3kb的序列测定和分析 ,在其中 10 8kb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。     

血管内皮细胞生长因子受体Flt-1结合小肽的融合表达及活性鉴定

血管内皮细胞生长因子 (VEGF)通过结合其酪氨酸激酶受体KDR、fms样酪氨酸激酶 1(Flt 1)调节新生血管形成 ;筛选能封闭VEGF结合Flt 1的小肽 ,可以通过阻断肿瘤血管形成 ,抑制实体瘤生长 .将从噬菌体 12肽库中筛选获得的 2个能与Flt 1结合的阳性噬菌体克隆 (F5 6和F90 )十二肽DNA(36bp)克隆到表达载体pQE4 2中 ,在大肠杆菌M15中稳定表达二氢叶酸还原酶融合蛋白(DHFR F5 6 F90 ) ,经变性、复性后得到纯度达 90 %的可溶性蛋白 .ELISA检测表明 ,DHFR F5 6 F90能结合可溶性受体sFlt 1和血管内皮细胞 ;12 5I VEGF竞争抑制实验显示 ,DHFR F5 6能竞争抑制VEGF同可溶性受体sFlt 1结合 .结果提示 ,F5 6可能是VEGF受体Flt 1的有效拮抗剂 ,具有抗肿瘤新生血管形成的潜在应用前景     

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.     

Molecular characterization and expression analysis of <Emphasis Type="Italic">OsBISERK1</Emphasis>, a gene encoding a leucine-rich repeat receptor-like kinase,during disease resistance responses in rice

A rice gene, OsBISERK1, encoding a protein belonging to SOMATIC EMBRYOGENESIS RECEPTOR KINASE (SERK) type of leucine-rich repeat receptor-like kinases (LRR-RLKs) was identified. The OsBISERK1 encodes a 624 aa protein with high level of identity to known plant SERKs. OsBISERK1 contains a hydrophobic signal peptide, a leucine zipper, and five leucine-rich repeat motifs in the extracellular domain; the cytoplasmic region carries a proline-rich region and a single transmembrane domain, as well as a conserved intracellular serine/threonine protein kinase domain. OsBISERK1 has a low level of basal expression in leaf tissue. However, expression of OsBISERK1 was induced by treatment with benzothiadiazole (BTH), which is capable of inducing disease resistance in rice, and also up-regulated after inoculation with Magnaporthe grisea in BTH-treated rice seedlings and during incompatible interaction between a blast-resistant rice genotype and M. grisea. The results suggest that OsBISERK1 may be involved in disease resistance responses in rice.     

Rice <Emphasis Type="Italic">SERK1</Emphasis> gene positively regulates somatic embryogenesis of cultured cell and host defense response against fungal infection

Here we report on the isolation and characterization of a somatic embryogenesis receptor-like kinase (OsSERK1) gene in rice (Oryza sativa). The OsSERK1 gene belongs to a small subfamily of receptor-like kinase genes in rice and shares a highly conserved gene structure and extensive sequence homology with previously reported plant SERK genes. Though it has a basal level of expression in various rice organs/tissues, as high expression level was detected in rice callus during somatic embryogenesis. Suppression of OsSERK1 expression in transgenic calli by RNA interference resulted in a significant reduction of shoot regeneration rate (from 72% to 14% in the japonica rice Zhonghua11). Overexpression of OsSERK1, however, increased the shoot regeneration rate (from 72% to 86%). Interestingly, OsSERK1 is significantly activated by the rice blast fungus, particularly during the incompatible interaction, and is associated with host cell death in Sekigushi lesion mimic mutants. This gene is also inducible by defense signaling molecules such as salicylic acid, jasmonic acid, and abscisic acid. Furthermore, constitutive overexpression of OsSERK1 in two rice cultivars led to an increase in host resistance to the blast fungus. Our data suggest that OsSERK1 may partially mediate defense signal transduction in addition to its basic role in somatic embryogenesis.     

Cloning and characterization of receptor kinase class disease resistance gene candidates in Citrus

The rice gene Xa21 represents a unique class of plant disease resistance (R) genes with distinct protein structure and broad-spectrum specificity; few sequences or genes of this class have been cloned and characterized in other plant species. Degenerate primers were designed from the conserved motifs in the kinase domains of Xa21 and tomato Pto, and used in PCR amplification to identify this class of resistance gene candidate (RGC) sequences from citrus for future evaluation of possible association with citrus canker resistance. Twenty-nine RGC sequences highly similar to the kinase domain of Xa21 (55%–60% amino-acid identity) were cloned and characterized. To facilitate recovery of full-length gene structures and to overcome RGC mapping limitations, large-insert genomic clones (BACs) were identified, fingerprinted and assembled into contigs. Southern hybridization revealed the presence of 1–3 copies of receptor-like kinase sequences (i.e., clustering) in each BAC. Some of these sequences were sampled by PCR amplification and direct sequencing. Twenty-three sequences were thus obtained and classified into five groups and eight subgroups, which indicates the possibility of enhancing RGC sequence diversity from BACs. A primer-walking strategy was employed to derive full-length gene structures from two BAC clones; both sequences 17o6RLK and 26m19RLK contained all the features of the rice Xa21 protein, including a signal peptide, the same number of leucine-rich-repeats, and transmembrane and kinase domains. These results demonstrate that PCR amplification with appropriately designed degenerate primers is an efficient approach for cloning receptor-like kinase class RGCs. Utilization of BAC clones can facilitate this approach in multiple ways by improving sequence diversity, providing full-length genes, and assisting in understanding gene structures and distribution.Communicated by P. Langridge     

OsRPK1, a novel leucine-rich repeat receptor-like kinase,negatively regulates polar auxin transport and root development in rice

Background

Leucine-rich-repeat receptor-like kinases (LRR-RLKs) represent the largest subfamily of putative RLKs in plants. Although several members in this subfamily have been identified, the studies about the relationships between LRR-RLKs and root development are still few. We previously identified a novel LRR-RLK in rice roots, and named it OsRPK1.

Methods

In this study, we first detected OsRPK1 kinase activity in vitro, and assessed its expression profile. We then investigated its biological function using transgenic rice plants over- and under-expressing OsRPK1.

Results

The OsRPK1 gene, which encodes a Ca^2 +-independent Ser/Thr kinase, was predominantly expressed in root tips, leaf blades, and undifferentiated suspension cells, and was markedly induced by treatment with auxin or ABA. Knockdown of OsRPK1 promoted the growth of transgenic rice plants, and increased plant height and tiller numbers. In contrast, over-expressing plants showed undeveloped adventitious roots, lateral roots, and a reduced root apical meristem. OsRPK1 over-expression also inhibited the expression of most auxin efflux carrier OsPIN genes, which was accompanied by changes in PAT and endogenous free IAA distribution in the leaves and roots.

Conclusions

The data indicated that OsRPK1, a novel leucine-rich-repeat receptor-like kinase, affects the root system architecture by negatively regulating polar auxin transport in rice.

General significance

This study demonstrated a common regulatory pathway of root system development in higher plants, which might be initiated by external stimuli via upstream receptor-like kinases and downstream carriers for polar auxin transport.     

Expression of the chimeric receptor between the chitin elicitor receptor CEBiP and the receptor-like protein kinase Pi-d2 leads to enhanced responses to the chitin elicitor and disease resistance against Magnaporthe oryzae in rice

We previously reported that rice plants expressing the chimeric receptor consisting of rice chitin oligosaccharides binding protein (CEBiP) and the intracellular protein kinase region of Xa21, which confers resistance to rice bacterial blight, showed enhanced cellular responses to a chitin elicitor N-acetylchitoheptaose and increased resistance to the rice blast fungus Magnaporthe oryzae. Here, we investigated whether CEBiP fused with another type of receptor-like protein kinase (RLK) also functions as a chimeric receptor. Fusion proteins CRPis consist of CEBiP and the intracellular protein kinase region of a true resistance gene Pi-d2. Transgenic rice expressing a CRPi showed enhanced cellular responses specifically to N-acetylchitoheptaose in cultured cells and increased levels of disease resistance against M. oryzae in plants. These responses depended on the amino acid sequences predicted to be essential for the protein kinase activity of CRPi. The structure of the transmembrane domain in CRPi affected the protein accumulation, cellular responses, and disease resistance in transgenic rice. These results suggest that the chimeric receptor consisting of CEBiP and Pi-d2 functions as a receptor for chitin oligosaccharides and CEBiP-based chimeric receptors fused with other RLKs may also act as functional receptors.     

Differential proteomic analysis of apoplastic proteins during initial phase of salt stress in rice

The plant cell apoplast, which consists of all the compartments beyond the plasma membrane, is implicated in a variety of functions during plant growth and development as well as in plant defence responses to stress conditions. To evaluate the role of apoplastic proteins in initial phase of salt stress, a 2-DE based differential proteomics approach has been used to identify apoplastic salt response proteins. Six salt response proteins have been identified, among them, an apoplastic protein OsRMC, which belongs to cysteine-rich repeat receptor like protein kinase subfamily but without the kinase domain, has shown drastically increased abundance in response to salt stress during the initial phase. Our results show, OsRMC negative regulates the salt tolerance of rice plants. These results indicated that plant apoplastic proteins may have important role in plant salt stress response signal pathway.Key words: rice, apoplast, proteomic, salt stress, receptor-like protein kinase, OsRMC