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双组分系统由感受信号输入的组氨酸(His) 蛋白激酶和调节信号输出的反应调控因子组成,涉及许多原核生物、真菌、黏菌和植物的各种信号转导途径。在植物中,还存在更复杂的包括杂合的His激酶、磷酸传递中间体和反应调控因子的信号系统,称为多步骤双组分系统。最近的研究表明,双组分系统在对环境刺激和生长调节剂(如乙烯、细胞分裂素、光和渗透胁迫)的反应中起重要作用。 相似文献
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细菌Cpx双组分信号转导系统应对外界环境变化的响应调节机制研究进展 总被引:1,自引:1,他引:0
细菌能够在其他微生物无法生存的环境中生长,必然具有更加强大的适应外界环境的能力。细胞信号转导的效率决定了细菌对外界刺激做出应答反应的速率和能力。双组分调控系统是维持细菌在压力环境中存活的重要结构。Cpx双组分信号转导系统是革兰氏阴性菌中普遍存在的双组分调控系统之一,在响应外界环境变化并做出适应性反应的过程中起着主要作用。本文主要针对细菌中双组分信号转导系统的种类、Cpx双组分信号转导系统参与的调控、Cpx双组分信号转导系统所调控的靶基因及其生理行为的研究进展进行综述,以期为科研人员更深入的研究提供思路和理论基础。 相似文献
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细菌双组分信号转导系统 总被引:2,自引:0,他引:2
细菌能感应外界环境各种不同信号,调控菌体内相关基因表达,以适应不断变化的环境。其中双组分信号转导系统广泛存在于各种原核生物中,其基本结构为一个组氨酸蛋白激酶和一个反应调节蛋白。由于双组分系统在结构和作用机制上与人类细胞的信号转导系统有本质的不同,因而在抗微生物感染方面有着诱人的应用前景。 相似文献
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双组分系统是存在于原核和少部分真核生物细胞中的信号转导系统,主要由组氨酸蛋白激酶和反应调节蛋白组成,通过感应外界环境信号、信号输入、磷酸基团传递、信号输出等环节调节基因表达,使细胞能更加适应环境变化。铜绿假单胞菌为条件致病菌,其双组分系统构成多样、功能复杂且参与介导耐药性产生,因此铜绿假单胞菌的双组分系统日益引起人们关注。本文对铜绿假单胞菌双组分系统的组成、信号转导机制、种类、研究方法及其临床意义进行了综述。 相似文献
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表皮葡萄球菌(Staphylococcus epidermidis,SE)是寄居在人体和黏膜表面的条件致病菌,因可在医疗植入材料表面形成生物膜(biofilm)而具有致病性。细菌双组分信号转导系统可调控生物膜形成,但其调控机制在SE中研究甚少。本课题对arlRS双组分信号转导系统的反应蛋白ArlR在细菌不同生长期的表达情况进行初步研究。首先构建ArlR原核表达质粒,用纯化重组ArlR免疫小鼠,获得多克隆抗-ArlR抗体,免疫Dot方法检测结果显示小鼠抗-ArlR血清效价>1∶100000。进一步采用蛋白免疫印迹法检测ArlR在SE1457野生株不同生长期中的表达水平,结果显示,ArlR在2h表达量较低,到4h达高峰,6~10h表达量较4h降低。利用反转录实时荧光定量聚合酶链反应检测arlR基因在不同生长期的转录水平,结果显示相应时间点ArlR蛋白表达水平与arlR基因转录水平一致。本研究结果为后期研究双组分信号转导系统arlRS对SE生物膜形成的影响奠定基础。 相似文献
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PhoP-PhoQ是调控沙门菌毒力的重要双组分信号转导系统,由组氨酸蛋白激酶PhoQ和反应调节蛋白PhoP组成。PhoP-PhoQ可调节沙门菌对Mg2+及其他周质环境的适应性,并调控沙门菌感染中毒力基因的转录和表达。PhoP-PhoQ调控的毒力基因参与沙门菌对上皮细胞的侵袭、胞内生存、对抗菌肽的抵抗反应、脂质A的修饰、Ⅲ型分泌系统效应蛋白的分泌等环节。PhoP-PhoQ还可与其他双组分信号转导系统或调节子合作,调控沙门菌的毒力。因此,PhoP-PhoQ双组分信号转导系统在沙门菌的毒力调控中发挥重要作用。 相似文献
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迄今为止,已从多种植物中分离到细胞分裂素结合蛋白(CBPs),它们可能在细胞分裂素的信号转导、体内运输及代谢中起作用。根据现有研究结果认为,大多数CTKs受体可能位于膜上,通过与G_蛋白耦联的信号转导系统或双组分信号转导系统完成CTKs信号的跨膜转导。少数CTKs受体可能位于细胞质中,与胞内CTKs结合后进入细胞核,直接调节基因的表达。本文综述了近年来对CBPs的研究进展,分析了CTKs受体的可能类型及CBPs作用的可能机制。 相似文献
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Role of the JAK/STAT signal transduction pathway in the regulation of gene expression in CNS 总被引:11,自引:0,他引:11
Dell'Albani P Santangelo R Torrisi L Nicoletti VG Giuffrida Stella AM 《Neurochemical research》2003,28(1):53-64
Over the last 20 years the JAK/STAT signal transduction pathway has been extensively studied. An enormous amount of data on different cell signal transduction pathways is now available. The JAK/STAT signal transduction pathway is one of the intracellular signaling pathways activated by cytokines and growth factors that was first studied in the hematopoietic system, but recent data demonstrate that this signal transduction is also greatly utilized by other systems. The JAK/STAT pathway is a signaling cascade that links the activation of specific cell membrane receptors to nuclear gene expression. This review is focused on the role of JAK/STAT signal transduction pathway activation in the central nervous system (CNS). 相似文献
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Signal transduction systems based on tyrosine phosphorylation are central to cell–cell communication in multicellular organisms. Typically, in such a system, the signal is initiated by activating tyrosine kinases associated with transmembrane receptors, which induces tyrosine phosphorylation of the receptor and/or associated proteins. The phosphorylated tyrosines then serve as docking sites for the binding of various downstream effector proteins. It has long been observed that the cooperative association of the receptors and effectors produces higher-order protein assemblies (clusters) following signal activation in virtually all phosphotyrosine signal transduction systems. However, mechanistic studies on how such clustering processes affect signal transduction outcomes have only emerged recently. Here we review current progress in decoding the biophysical consequences of clustering on the behavior of the system, and how clustering affects how these receptors process information. 相似文献
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Amirali Afshari Claudia Uhde-Stone Biao Lu 《Biochemical and biophysical research communications》2014
Despite their fundamental importance, the dynamics of signaling pathways in living cells remain challenging to study, due to a lack of non-invasive tools for temporal assessment of signal transduction in desired cell models. Here we report a dual-reporter strategy that enables researchers to monitor signal transduction in mammalian cells in real-time, both temporally and quantitatively. This is achieved by co-expressing green fluorescent protein and firefly luciferase in response to signaling stimuli. To display the versatility of this approach, we constructed and assessed eight unique signaling pathway reporters. We further validated the system by establishing stable NF-κB pathway reporter cell lines. Using these stable cell lines, we monitored the activity of NF-κB-mediated inflammatory pathway in real-time, both visually and quantitatively. Live visualization has the power to reveal individual cell responses and is compatible with single cell analysis, In addition, we provide evidence that this system is readily amenable to a high-throughput format. Together, our findings demonstrate the potential of the dual reporter system, which significantly improves the capacity to study signal transduction pathways in mammalian cells. 相似文献
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The study of visual transduction has given invaluable insight into the mechanisms of signal transduction by heptahelical receptors that act via guanine nucleotide binding proteins (G-proteins). However, the cyclic-GMP second messenger system seen in vertebrate photoreceptor cells is not widely used in other cell types. In contrast, the retina of higher invertebrates, such as squid, offers an equally accessible transduction system, which uses the widespread second messenger chemistry of an increase in cytosolic calcium caused by the production of inositol-(1,4,5)-trisphosphate (InsP3) by the enzyme phospholipase C, and which may be a model for store-operated calcium influx. In this article, we highlight some key aspects of invertebrate visual transduction as elucidated from the combination of biochemical techniques applied to cephalopods, genetic techniques applied to flies, and electrophysiology applied to the horseshoe crab. We discuss the importance and applicability of ideas drawn from these model systems to the understanding of some general processes in signal transduction, such as the integration of the cytoskeleton into the signal transduction process and the possible modes of regulation of store-operated calcium influx. 相似文献
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Archaeal photoreceptors, together with their cognate transducer proteins, mediate phototaxis by regulating cell motility through two-component signal transduction pathways. This sensory pathway is closely related to the bacterial chemotactic system, which has been studied in detail during the past 40 years. Structural and functional studies applying site-directed spin labelling and electron paramagnetic resonance spectroscopy on the sensory rhodopsin II/transducer (NpSRII/NpHtrII) complex of Natronomonas pharaonis have yielded insights into the structure, the mechanisms of signal perception, the signal transduction across the membrane and provided information about the subsequent information transfer within the transducer protein towards the components of the intracellular signalling pathway. Here, we provide an overview about the findings of the last decade, which, combined with the wealth of data from research on the Escherichia coli chemotaxis system, served to understand the basic principles microorganisms use to adapt to their environment. We document the time course of a signal being perceived at the membrane, transferred across the membrane and, for the first time, how this signal modulates the dynamic properties of a HAMP domain, a ubiquitous signal transduction module found in various protein classes. 相似文献
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丙型肝炎病毒蛋白作用于细胞信号转导途径的研究进展 总被引:1,自引:0,他引:1
细胞信号转导异常往往与人类疾病的发生、发展密切相关。一些病毒致病和感染机制即为病毒抗原蛋白作用宿主细胞信号转导途径,导致宿主细胞内信号转导发生紊乱。丙型肝炎病毒(HCV)是引发慢性丙型肝炎,导致肝硬化和肝细胞癌发生的主要病原体,但目前HCV的致病机制与宿主内持续感染机制尚不清楚。HCV致病机制可能与HCV表达的蛋白质干扰宿主细胞信号转导途径而导致异常的细胞信号转导有关。研究HCV蛋白对宿主细胞信号转导途径的影响不仅有助于阐明其致病机制,还能为新药设计和寻找新的治疗方法提供新思路和新靶点。本文主要综述了近年来国内外有关HCV蛋白作用细胞信号转导途径的研究进展。 相似文献
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In the immune system, much of the focus on reactive oxygen species (ROS) has been regarding their role in antimicrobial defense as part of the innate immune system. In addition to this role, it is now becoming clear that ROS are used by cells of the adaptive immune system as regulators of signal transduction by cell surface receptors. The activation of T lymphocytes through their specific antigen receptor [T cell receptor (TCR)] is vital in regulating the immune response. Much experimental evidence has suggested that activation of T cells is redox dependent and recent studies have shown that engagement of the TCR induces rapid production of ROS. This review examines the evidence for TCR-stimulated generation of ROS and discusses the role(s) of receptor-stimulated ROS production in T cell signal transduction and gene expression. 相似文献
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