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植物与病原微生物互作分子基础的研究进展 总被引:4,自引:0,他引:4
植物在与病原微生物共同进化过程中形成了复杂的免疫防卫体系。植物的先天免疫系统可大致分为两个层面。第一个层面的免疫基于细胞表面的模式识别受体对病原物相关分子模式的识别,该免疫过程被称为病原物相关分子模式触发的免疫(PAMP-triggered immunity,PTI),能帮助植物抵抗大部分病原微生物;第二个层面的免疫起始于细胞内部,主要依靠抗病基因编码的蛋白产物直接或间接识别病原微生物分泌的效应子并且激发防卫反应,来抵抗那些能够利用效应子抑制第一层面免疫的病原微生物,这一过程被称为效应子触发的免疫(Effector-triggered immunity,ETI)。这两个层面的免疫都是基于植物对"自我"及"非我"的识别,依靠MAPK级联等信号网络,将识别结果传递到细胞核内,调控相应基因的表达,做出适当的免疫应答。本文着重阐述了植物与病原微生物互作过程中不同层面的免疫反应所发生主要事件的分子基础及研究进展。 相似文献
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植物在与病原微生物共同进化过程中形成了复杂的免疫防卫体系。植物的先天免疫系统可大致分为两个层面。第一个层面的免疫基于细胞表面的模式识别受体对病原物相关分子模式的识别, 该免疫过程被称为病原物相关分子模式触发的免疫(PAMP-triggered immunity, PTI), 能帮助植物抵抗大部分病原微生物; 第二个层面的免疫起始于细胞内部, 主要依靠抗病基因编码的蛋白产物直接或间接识别病原微生物分泌的效应子并且激发防卫反应, 来抵抗那些能够利用效应子抑制第一层面免疫的病原微生物, 这一过程被称为效应子触发的免疫(Effector-triggered immunity, ETI)。这两个层面的免疫都是基于植物对“自我”及“非我”的识别, 依靠MAPK级联等信号网络, 将识别结果传递到细胞核内, 调控相应基因的表达, 做出适当的免疫应答。本文着重阐述了植物与病原微生物互作过程中不同层面的免疫反应所发生主要事件的分子基础及研究进展。 相似文献
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在自然生态系统中,植物组织可作为许多微生物定居的生态位.内生真菌普遍存在于植物组织内,与宿主建立复杂的相互作用(互惠、拮抗和中性之间的相互转化),并且存在不同的传播方式(垂直和水平传播).内生真菌通过多样化途径来增强植物体的营养生理和抗性机能.但这种生理功能的实现有赖于双方精细的调控机制,表明宿主和真菌双方都进化形成特有的分子调控机制来维持这种互惠共生关系.环境因子(如气候、土壤性质等)、宿主种类和生理状态、真菌基因型的变化都将改变互作结果.此外,菌根真菌和真菌病毒等也可能普遍参与植物-内生真菌共生体,形成三重互作体系,最终影响宿主的表型.研究试图从形态、生理和分子水平阐述内生真菌与植物互作的基础. 相似文献
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蛋白磷酸化修饰是植物细胞信号调控的普遍机制。植物-病原微生物互作过程中, 关键调控蛋白的磷酸化状态影响免疫信号的激活。多种病原微生物通过干扰宿主蛋白的磷酸化状态攻击免疫系统, 以提高致病性。该文对植物免疫调控过程中关键元件的磷酸化修饰及其在免疫信号中的调控作用进行了综述。研究植物-病原菌互作过程中关键蛋白的磷酸化修饰, 有助于深入探讨植物-病原微生物互作的分子机理。该文将为寻找广谱抗病的新途径提供理论依据。 相似文献
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葡萄球菌与宿主免疫系统的动态互作过程决定了其致病特点的多样性。在感染的侵袭阶段,葡萄球菌通过释放α-毒素、蛋白酶及超抗原,破坏中性粒细胞、降解补体蛋白,并诱导免疫应答过度活化,进而突破宿主固有免疫屏障。当侵入定殖后,葡萄球菌通过形成生物被膜建立物理屏障,或形成小菌落变异体减弱免疫系统识别,或侵入宿主细胞逃逸免疫清除。葡萄球菌急性期通过毒力因子分泌,表现为主动攻击的感染特点,慢性持续性感染阶段,通过免疫逃逸表现为被动防御的感染特点。基于上述机制,新型防治策略需同时抑制毒力因子产生,并阻断免疫逃逸途径。结合课题组前期工作,本文系统梳理了葡萄球菌-宿主免疫系统互作及免疫逃逸机制,为防治葡萄球菌感染提供了参考。 相似文献
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TLRs是一类古老的天然模式识别分子,通过识别病毒的PAMPs,活化依赖和非依赖于MyD88的信号通路,诱导IFNs、促炎性细胞因子和趋化因子等分子的释放和表达,清除病毒的感染;同时,病毒为了感染宿主,采用多种免疫逃避策略干扰机体TLRs的信号,尤其调节MyD88、NF-κB、TRIF和IRFs等重要信号分子,以逃避机体天然PRRs的监视、识别和清除。因此,本文重点以VACV、HCV和HIV为例,介绍病毒感染对宿主TLRs模式识别与免疫应答信号的调节,以进一步理解病毒与宿主相互作用的复杂性,为病毒病的有效防治提供理论依据。 相似文献
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Inhwa Yeam Hanh P. Nguyen Gregory B. Martin 《The Plant journal : for cell and molecular biology》2010,61(1):16-24
The type III effector protein AvrPto from Pseudomonas syringae pv. tomato is secreted into plant cells where it promotes bacterial growth and enhances symptoms of speck disease on susceptible tomato plants. The virulence activity of AvrPto is due, in part, to its interaction with components of host pattern recognition receptor complexes, which disrupts pathogen-associated molecular pattern-triggered immunity. This disruption mechanism requires a structural element of the AvrPto protein, the CD loop, which is also required for triggering Pto/Prf-mediated resistance in tomato. We have shown previously that the carboxyl-terminal domain (CTD) of AvrPto is phosphorylated and also contributes to bacterial virulence. Here we report that phosphorylation of the CTD on S147 and S149 promotes bacterial virulence in an FLS2/BAK1-independent manner, which is mechanistically distinct from the CD loop. In a striking corollary with Pto recognition of the CD loop in tomato, the tobacco species Nicotiana sylvestris and Nicotiana tabacum have a recognition mechanism that specifically detects the phosphorylation status of the CTD. Thus different species in the Solanaceae family have evolved distinct recognition mechanisms to monitor the same type III effector. 相似文献
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Kee Hoon Sohn Yan Zhang Jonathan D. G. Jones 《The Plant journal : for cell and molecular biology》2009,57(6):1079-1091
A Pseudomonas syringae pv. pisi effector protein, AvrRPS4, triggers RPS4 -dependent immunity in Arabidopsis. We characterized biochemical and genetic aspects of AvrRPS4 function. Secretion of AvrRPS4 from Pst DC3000 is type III secretion-dependent, and AvrRPS4 is processed into a smaller form in plant cells but not in bacteria or yeast. Agrobacterium -mediated transient expression analysis of N-terminally truncated AvrRPS4 mutants revealed that the C-terminal 88 amino acids are sufficient to trigger the hypersensitive response in turnip. N-terminal sequencing of the processed AvrRPS4 showed that processing occurs between G133 and G134. The processing-deficient mutant, R112L, still triggers RPS4 -dependent immunity, suggesting that the processing is not required for the AvrRPS4 avirulence function. AvrRPS4 enhances bacterial growth when delivered by Pta 6606 into Nicotiana benthamiana in which AvrRPS4 is not recognized. Transgenic expression of AvrRPS4 in the Arabidopsis rps4 mutant enhances the growth of Pst DC3000 and suppresses PTI (PAMP-triggered immunity), showing that AvrRPS4 promotes virulence in two distinct host plants. Furthermore, full virulence activity of AvrRPS4 requires both proteolytic processing and the KRVY motif at the N-terminus of processed AvrRPS4. XopO, an Xcv effector, shares the amino acids required for AvrRPS4 processing and the KRVY motif. XopO is also processed into a smaller form in N. benthamiana , similar to AvrRPS4, suggesting that a common mechanism is involved in activation of the virulence activities of both AvrRPS4 and XopO. 相似文献
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《Cytokine & growth factor reviews》2014,25(5):597-609
Understanding of the innate immune response to viral infections is rapidly progressing, especially with regards to the detection of DNA viruses. Kaposi's sarcoma-associated herpesvirus (KSHV) is a large dsDNA virus that is responsible for three human diseases: Kaposi's sarcoma, primary effusion lymphoma and multicentric Castleman's disease. The major target cells of KSHV (B cells and endothelial cells) express a wide range of pattern recognition receptors (PRRs) and play a central role in mobilizing inflammatory responses. On the other hand, KSHV encodes an array of immune evasion genes, including several pirated host genes, which interfere with multiple aspects of the immune response. This review summarizes current understanding of innate immune recognition of KSHV and the role of immune evasion genes that shape the antiviral and inflammatory responses. 相似文献
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Markus Peer 《FEBS letters》2010,584(18):4053-3010
Sphingolipids are important membrane components and also regulate cell proliferation and apoptosis. We detected a fast increase of the free sphingobase t18:0 (phytosphinganine) in Arabidopsis leaves after inoculation with an avirulent strain of the bacterial pathogen Pseudomonas syringae pathovar tomato, characterized by host cell death reactions. The induction of phytosphinganine was more transient in virulent interactions lacking cell death reactions, suggesting a positive role of t18:0 in the plants’ response to pathogens, e.g. the hypersensitive response. In the mutant sphingobase hydroxylase 1 (sbh1-1), Pseudomonas induced elevated free d18:0 levels. As total t18:0 contents (after hydrolysis of ceramides) were not reduced in sbh1-1, the pathogen-triggered t18:0 increase most likely results from de novo synthesis from d18:0 which would require SBH1. 相似文献
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Hirotaka Kanoh Hiroyuki Kato Yamato Suda Aki Hori Shoichiro Kurata Takayuki Kuraishi 《Biochemical and biophysical research communications》2019,508(1):332-337
The Drosophila Toll pathway is involved in embryonic development, innate immunity, and cell-cell interactions. However, compared to the mammalian Toll-like receptor innate immune pathway, its intracellular signaling mechanisms are not fully understood. We have previously performed a series of ex vivo genome-wide RNAi screenings to identify genes required for the activation of the Toll pathway. In this study, we have conducted an additional genome-wide RNAi screening using the overexpression of Tube, an adapter molecule in the Toll pathway, and have performed a co-immunoprecipitation assay to identify components present in the dMyd88-Tube complex. Based on the results of these assays, we have performed a bioinformatic analysis, and describe candidate molecules and post-translational modifications that could be involved in Drosophila Toll signaling. 相似文献
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模式识别受体(PRR)的发现推动了免疫学领域的迅速发展.在近15年时间里,揭示了PRR启动的天然免疫反应机制及信号转导途径,并对天然免疫反应调节获得性免疫产生的机制进行了广泛研究.本文综述该领域一些新的重要发现,集中讨论病原体激活抗原递呈细胞的天然免疫反应调节淋巴细胞介导的抗原特异性获得性免疫机理,以及不同天然免疫途径在宿主抵抗感染和修复组织损伤中的作用,并讨论该领域尚未解决的重要问题. 相似文献
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Merchant M Britton A 《Comparative biochemistry and physiology. Part A, Molecular & integrative physiology》2006,143(4):488-493
We employed a spectroscopic assay, based on the hemolysis of sheep red blood cells (SRBCs), to assess the innate immune function of saltwater and freshwater crocodiles in vitro. Incubation of serum from freshwater and saltwater crocodiles with SRBCs resulted in concentration-dependent increases in SRBC hemolysis. The hemolytic activity occurred rapidly, with detectable activity within 2 min and maximum activity at 20 min. These activities, in both crocodilian species, were heat sensitive, unaffected by 20 mM methylamine, and completely inhibited by low concentrations of EDTA, suggesting that the alternative serum complement cascade is responsible for the observed effects. The hemolytic activities of the sera were inhibited by other chelators of divalent metal ions, such as phosphate and citrate. The inhibition of SRBC hemolysis by EDTA could be completely restored by the addition of 10 mM Ca2+ or Mg2+, but not Ba2+, Cu2+ or Fe2+, indicating specificity for these metal ions. The serum complement activities of both crocodilians were temperature-dependent, with peak activities occurring at 25-30 degrees C and reduced activities below 25 degrees C and above 35 degrees C. 相似文献