Rice Mitogen-activated Protein Kinase Gene Family and Its Role in Biotic and Abiotic Stress Response

The mitogen-activated protein kinase （MAPK） cascade is an important signaling module that transduces extracellular stimuli into intracellular responses in eukaryotic organisms. An increasing body of evidence has shown that the MAPK-mediated cellular signaling is crucial to plant growth and development, as well as biotic and abiotic stress responses. To date, a total of 17 MAPK genes have been Identified from the rice genome. Expression profiling, biochemical characterization and/or functional analysis were carried out with many members of the rice MAPK gene family, especially those associated with biotic and abiotic stress responses. In this review, the phylogenetic relationship and classification of rice MAPK genes are discussed to facilitate a simple nomenclature and standard annotation of the rice MAPK gene family. Functional data relating to biotic and abiotic stress responses are reviewed for each MAPK group and show that despite overlapping in functionality, there is a certain level of functional specificity among different rice MAP kinases. The future challenges are to functionally characterize each MAPK, to identify their downstream substrates and upstream kinases, and to genetically manipulate the MAPK signaling pathway in rice crops for the Improvement of agronomically important traits.     

Rice Mitogen-activated Protein Kinase Gene Family and Its Role in Biotic and Abiotic Stress Response

The mitogen-activated protein kinase (MAPK) cascade is an important signaling module that transduces extracellu-lar stimuli into intracellular responses in eukaryotic organisms. An increasing body of evidence has shown that theMAPK-mediated cellular signaling is crucial to plant growth and development, as well as biotic and abiotic stressresponses. To date, a total of 17 MAPK genes have been identified from the rice genome. Expression profiling,biochemical characterization and/or functional analysis were carried out with many members of the rice MAPKgene family, especially those associated with biotic and abiotic stress responses. In this review, the phylogeneticrelationship and classification of rice MAPK genes are discussed to facilitate a simple nomenclature and standardannotation of the rice MAPK gene family. Functional data relating to biotic and abiotic stress responses are re-viewed for each MAPK group and show that despite overlapping in functionality, there is a certain level of functionalspecificity among different rice MAP kinases, The future challenges are to functionally characterize each MAPK, toidentify their downstream substrates and upstream kinases, and to genetically manipulate the MAPK signalingpathway in rice crops for the improvement of agronomically important traits.     

钙依赖的蛋白激酶与植物抗逆性

植物钙依赖的蛋白激酶(Calcium-dependent protein kinases,CDPKs)是细胞Ca2 信号的受体,同时具有Ca2 受体蛋白和Ser/Thr蛋白激酶的功能。许多植物CDPKs基因受环境胁迫刺激发生表达水平的改变,这些基因在植物逆境胁迫的Ca2 信号转导中起着十分重要的作用,为植物CDPKs抗逆功能的研究和植物的抗逆遗传改良提供了理论基础和基因资源。     

棉花抗逆相关基因GhDr1的克隆及生物信息学分析

通过TAIL-PCR的方法从棉花中克隆到未知功能的新基因GhDr1,生物信息学分析结果表明,GhDr1的预测蛋白含有酪氨酸激酶和蛋白酶C磷酸化位点、潜在的锌指类功能模块、MAPK磷酸化位点及MAPK相互作用识别位点;与GhDr1同源基因位于同一基因簇的基因多为参与逆境信号转导的蛋白。推测GhDr1基因可能在逆境信号转导途径的磷酸化级联反应中被调节,参与棉花逆境应答的生理过程。     

Signal convergence through the lenses of MAP kinases: paradigms of stress and hormone signaling in plants

Common mechanisms plants use to translate the external stimuli into cellular responses are the activation of mitogen-activated protein kinase (MAPK) cascade. These MAPK cascades are highly conserved in eukaryotes and consist of three subsequently acting protein kinases, MAP kinase kinase kinase (MAPKKK), MAP kinase kinase (MAPKK) and MAP kinase (MAPK) which are linked in various ways with upstream receptors and downstream targets. Plant MAPK cascades regulate numerous processes, including various environmental stresses, hormones, cell division and developmental processes. The number of MAPKKs in Arabidopsis and rice is almost half the number of MAPKs pointing important role of MAPKKs in integrating signals from several MAPKKKs and transducing signals to various MAPKs. The cross talks between different signal transduction pathways are concentrated at the level of MAPKK in the MAPK cascade. Here we discussed the insights into MAPKK mediated response to environmental stresses and in plant growth and development.     

水稻胁迫相关基因OsPM1启动子的克隆与分析

依据NCBI数据库OsPM1的序列信息,采用PCR技术扩增获取OsPM1的2 100bp的启动子序列。利用PLACE预测启动子的顺式作用元件分析表明,启动子内含有大量与胁迫相关的顺式作用元件,主要有ABA响应相关元件、脱水响应元件、低温响应元件、热激响应元件和转录因子结合元件。构建OsPM1的启动子和GUS基因融合表达载体,转入拟南芥。组织化学染色分析结果显示,非生物胁迫处理前,幼苗中GUS基因表达水平很低;干旱、低温、高盐等胁迫处理后,GUS基因表达量显著升高。研究表明,OsPM1的启动子能够显著提高在干旱、高盐和低温处理后下游基因的表达水平。     

黄瓜苋科凝集素基因的表达分析与逆境调控

凝集素是一类具有特异性糖结合活性的蛋白质,通常具有1个或多个非催化的糖结合结构域。凝集素在植物对病原菌的防御反应中发挥重要作用。由于其抗细菌、真菌、病毒和昆虫等的活性,凝集素在农业和生物医药领域都具有很大的应用潜力。作为最小的凝集素家族之一,苋科凝集素的研究较少。该文通过对重要经济作物黄瓜(Cucumis sativu...     

<Emphasis Type="Italic">OsLEA3</Emphasis>, a late embryogenesis abundant protein gene from rice,confers tolerance to water deficit and salt stress to transgenic rice

OsLEA3 is a late embryogenesis abundant group 3 protein. The OsLEA3 gene located on chromosome 5 of rice (Oryza sativa L.) includes one intron and two exons and encodes a protein of 200 amino acid residues. Expression analysis revealed that OsLEA3 was induced by water deficit and salt stress. Overexpression of the OsLEA3 gene in the transgenic rice plants allowed us to test the role of the OsLEA3 protein in stress tolerance. The accumulation of the OsLEA3 protein in the vegetative tissues of transgenic rice plants enhanced their tolerance to water deficit and salt stress. These results demonstrate a role for the OsLEA3 protein in stress protection and suggest the potential of the OsLEA3 gene for genetic engineering of stress tolerance.     

TGF-β1 and hypoxia-dependent expression of MKP-1 leads tumor resistance to death receptor-mediated cell death

Sporadic occurrence of transformed tumor cells is under the surveillance of the host immune system and such cells are effectively eliminated by immune-mediated cell death. During tumor progression, the antitumor effects of the tumor microenvironment are suppressed by diverse immunosuppressive mechanisms. In this research, we suggest novel immune evasion strategy of tumor cells through a transforming growth factor (TGF)-β1- and hypoxia-dependent mechanism. Experimental results showed that TGF-β1 and hypoxia induced mitogen-activated protein kinase phosphatase (MKP)-1 expression within 1 h, resulting in attenuation of c-Jun N-terminal kinase (JNK) phosphorylation and subsequent death receptor-mediated cell death. In addition, analysis of microarray data and immunostaining of MKP-1 in hepatocellular carcinoma (HCC) patient samples revealed that expression of MKP-1 is notably higher in tumors than in normal tissues, implying that MKP-1-dependent suppression of immune-mediated cell death takes place only in the tumor. To prove that MKP-1 can act as a mediator of immune escape by tumors, we determined whether chemo-resistance against several anticancer drugs could be overcome by knockdown of MKP-1. Cytotoxic assays showed that chemotherapy with siRNA targeting MKP-1 was significantly more effective than chemotherapy in the presence of MKP-1. Thus, we conclude that TGF-β1 and hypoxia ensure tumor cell survival and growth through expression of MKP-1.     

Positive regulation of ERK activation and MKP-1 expression by peroxovanadium complex bpV (phen)

Lower micromolar concentrations of peroxovanadium compound potassium bisperoxo(1,10-phenanthroline)oxovanadate (V) [bpV (phen)] stimulate RINm5F cell metabolic activity. 1 and 3 mol/L bpV (phen) induces strong and sustained activation of extracellular signal-regulated kinase (ERK). However, it seems that bpV (phen) does not effect c-Jun N-terminal kinase (JNK) and p38 mitogen-activated protein kinase (MAPK) phosphorylation. In addition, bpV (phen) induces mitogen-activated protein kinase phosphatase-1 (MKP-1) expression. We found that ERK activation could be completely abolished if RINm5F cells were incubated with both bpV (phen) and PD 98059, a specific inhibitor of upstream ERK kinase MEK1. On the other hand, this combined treatment up-regulated activation of stress kinases, JNK and p38 MAPK, significantly suppressed MKP-1 expression and induced cell death. Thus, our results suggest that the mechanism underlying bpV (phen) survival-enhancing effect could be associated with induced ERK activation and MKP-1 expression.     

植物对细菌群体感应系统的反应

细菌的群体感应系统参与包括动植物病原细菌致病因子产生在内的许多生物学功能的调节。植物可以感知细菌群体感应系统及其信号分子,并作出复杂反应。植物可能受细菌群体感应信号分子诱导产生系统性防御反应,能够分泌细菌群体感应信号分子的类似物,可能产生降解细菌N-酰基高丝氨酸内酯信号分子的酶来阻断或干扰细菌群体感应系统。     

拟南芥CBF1与植物对低温和干旱的抗性

对冷驯化过程中基因表达差异的认识,使抗冻基因(COR)的克隆及其功能的分析成为研究冷驯化过程的主要目标。在拟南芥和其他抗冻植物中,分离了许多COR基因,这些基因对植物抗冻起着非常重要的作用。在拟南芥COR调控的研究中,发现了CBF转录因子的基因家族,其中CBF1能调控一组COR基因的表达。近年来,在冷敏植物如番茄和玉米中也发现了CBF类似基因,拟南芥CBF1基因在转基因番茄中的过量表达提高了植株的抗寒和抗旱性。这一研究结果展示了拟南芥CBF1类似基因的应用可能为冷敏植物抗寒和抗旱性的品种改良提供一条新的途径。     

木葡聚糖及其在植物抗逆过程中的功能研究进展

木葡聚糖(XyG)是一种存在于所有陆生植物细胞壁中的基质多糖, 是双子叶植物初生细胞壁中含量(20%-25%, w/w)最丰富的半纤维素成分。作为细胞壁的组分, XyG不仅与植物的生长发育密切相关, 还在植物抵抗各种生物和非生物逆境过程中发挥重要作用。XyG代谢相关基因主要通过改变植物细胞壁的组成以及对细胞壁进行重排进而改变细胞壁的弹性/硬度等特性, 影响植物的抗逆性。XyG及其寡糖也可能作为信号分子, 或与其它信号分子协同作用应对逆境胁迫。该文概述了XyG的结构与类型及参与XyG生物合成与降解的相关基因, 重点阐述XyG相关基因应答生物和非生物胁迫的作用机制。     

A calcium- and phospholipid-dependent protein kinase from rice (Oryza sativa) leaves

Protein kinases in plants have not been examined in detail, but protein phosphorylation has been shown to be essential for regulating plant growth via the signal transduction system. A Ca²⁺- and phospholipid-dependent protein kinase, possibly involved in the intracellular signal transduction system from rice leaves, was partially purified by sequential chromatography on DE52, Phenyl Superose and Superose 12. This protein kinase phosphorylated the substrate, histone III-S, in the presence of Ca²⁺ and phosphatidylserine. The apparent molecular mass of the Ca²⁺- and phosphatidylserine-dependent protein kinase (Ca²⁺/PS PK), determined by phosphorylation in SDS-polyacrylamide gel containing histone III-S, was 50 kDa. The protein kinase differed from Ca²⁺-dependent protein kinase (CDPK) in rice leaves in that Ca²⁺/PS PK showed phospholipid dependency and the molecular mass of Ca²⁺/PS PK exceeded that of CDPK. Investigations were carried out on changes in Ca²⁺/PS PK and CDPK activity in the cytosolic and membrane fractions during germination. The maximum activity of Ca²⁺/PS PK in the cytosolic fraction was observed before imbibition and that of CDPK in the membrane fraction was noted at 6 days following imbibition. Protein kinases are likely to regulate plant growth through protein phosphorylation.     

Effect of Introducing a Lactone Group into Typhasterol and Teasterone to Promote Rice Lamina Inclination

Protein phosphorylation may be required for plant cell response to phytohormones and other extracellular signals. Protein phosphorylation and protein kinase activity in the culm of heading time of rice (Oryza sativa L.) were studied. Before heading, protein kinase activity was increased by Ca²⁺ in the membrane fraction of the panicle and culm. The protein kinases with M_r of 51,900, 49,200, and 45,500 isolated from the membrane fraction of culm increased the protein phosphorylation of M_r and pI of 40,000/7.5 and 40,000/7.6 in the culm extract. The activation of protein kinases, associated with membrane and subsequent protein phosphorylation, thus appears to be involved in the regulation of heading time in rice.     

植物对非生物胁迫应答的转录因子及调控机制

植物对非生物胁迫的应答反应涉及到许多基因和生化分子机制,胁迫相关基因、蛋白质及代谢物构成了一个复杂的调控网络,其中转录控制具有举足轻重的作用。本文主要对近年来发现的几种在转录控制中起关键作用的转录因子CBF/DREB、bZIP、MYB/MYC和HSF及其调控机制进行介绍。这几种转录因子可以分别和胁迫应答顺式作用元件CRT/DRE、ABRE、MYB/MYC识别位点及HSE结合,在非生物胁迫条件下调控下游靶基因的表达,进而使一些胁迫保护物质如脯氨酸、可溶性糖类、自由基的清除剂、热休克蛋白和分子伴侣等的表达水平升高,最终增强植物对非生物胁迫的耐受能力。