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1.
植物病毒编码一些含有核定位信号(nuclear localization signal,NLS)或者核输出信号(nuclear export signal,NES)的核质转运蛋白,这些已被验证的转运蛋白有三种类型:核输入蛋白、核输出蛋白和核质穿梭蛋白。它们通过识别寄主核质转运受体Importinα和Importinβ,介导含有经典核定位信号的蛋白质入核过程,以及寄主蛋白Ran参与,由XPO1介导的富含亮氨酸核输出信号的蛋白质出核过程。植物病毒核质转运蛋白利用寄主的转运机制,进出细胞核发挥相应功能,如介导病毒基因组的核输入和核输出、介导病毒长距离运输及系统侵染、抵抗寄主细胞启动的RNA沉默、调节寄主细胞转录活性、调控病毒的复制及表达和参与病毒症状的形成等。对植物病毒蛋白核质转运的相关研究进展进行综述,着重介绍植物病毒蛋白核质转运类型、核输入和输出信号、转运机制和生物学意义,以及寄主蛋白介导的互作等研究的最新成果。  相似文献   

2.
核转运受体蛋白importinβ1是输入蛋白importinβ家族重要成员之一,它是一种相对保守的、广泛分布于真核生物细胞内的核转运受体蛋白。许多研究表明,importinβ1能直接识别和结合含有不同类型核定位信号的病毒蛋白并转运其入核,此过程对病毒的整个复制和致病进程起着十分重要的作用。该文主要从importinβ1的结构特征、介导的病毒蛋白入核转运机制以及在病毒复制中的作用、药物阻断importinβ1参与的病毒复制等研究方面进行综述,以期为后续研究病毒蛋白细胞核定位的分子机制和功能以及抗病毒治疗提供参考。  相似文献   

3.
核转运受体——α输入蛋白(importin α)是输入蛋白家族中重要的成员之一,能帮助具有核定位信号的蛋白质入核,在蛋白质的入核过程中充当着十分重要的角色。α输入蛋白通过对底物核质转运的精确调控影响细胞的基因转录,周期运转和增殖分化等生命活动。本文着重就核转运受体——α输入蛋白入核转运的机制及近年来取得的相关研究进展进行综述。  相似文献   

4.
为了解EV71病毒对细胞核转运机制的影响,本研究构建了具有核定位信号的绿色荧光蛋白表达载体(pG-FP-NLS)。将此表达载体转染细胞后,使用EV71病毒感染转染细胞,结果发现EV71病毒可以有效阻止绿色荧光蛋白的核转移。将EV71病毒的2A蛋白酶真核表达载体与pGFP-NLS共转染RD细胞,可以发现2A蛋白酶可阻止具有核定位信号的绿色荧光蛋白的核转移而使绿色荧光蛋白表达于细胞浆。为了进一步研究病毒阻止核转移的机制,病毒感染细胞或通过转染2A蛋白酶真核表达载体进行Nup62的Western blotting检测,结果显示病毒以及2A蛋白酶均可引起Nup62表达下降。证明EV71可通过2A蛋白酶切割Nup62从而抑制核转运。  相似文献   

5.
细胞核作为细胞中重要的遗传物质存储、复制和转录的结构,牵涉着大量信息和物质的传输活动,尤其是蛋白质的入核转运一直以来都是研究的热点问题之一。本文利用病毒SV40抗原蛋白中的核定位信号(nuclear localization signal,NLS)标记GFP蛋白,通过拟南芥细胞质的介导,利用HeLa细胞核建立起了研究蛋白质入核转运的半细胞体系。结果显示,植物细胞质结合NLS片段能改变GFP在HeLa细胞核内外的分布,实现对目标蛋白入核过程的介导,使GFP-NLS最后定位于细胞核内。这也意味着通过HeLa细胞建立起的半细胞体系能为蛋白入核转运研究提供一个有效的研究体系。  相似文献   

6.
KPNB1和Ran蛋白共同介导新城疫病毒基质蛋白的入核转运   总被引:2,自引:1,他引:1  
【目的】鉴定与新城疫病毒(Newcastle disease virus,NDV)基质蛋白(matrix protein,M)入核相关的细胞蛋白,以阐明NDV M蛋白细胞核定位的分子机制。【方法】从鸡胚成纤维细胞中分别克隆核转运受体蛋白KPNA1–KPNA6和KPNB1基因,将其构建到真核表达载体,并与表达NDV M蛋白的重组真核表达载体分别共转染HEK-293T细胞,通过免疫共沉淀方法鉴定与NDV M蛋白相互作用的核转运受体蛋白。另外,将M蛋白与Ran蛋白突变体或与M蛋白互作的核转运受体蛋白缺失体分别共表达,通过荧光共定位确定M蛋白入核转运相关的细胞蛋白。【结果】构建的重组真核表达载体在HEK-293T细胞中能够正确表达;通过间接免疫荧光观察发现,重组蛋白中除Myc-KPNA2蛋白定位在细胞质外,其它核转运受体蛋白均与M蛋白表现出相同的细胞核定位。免疫共沉淀试验结果表明,M蛋白与KPNA1蛋白和KPNB1蛋白均存在相互作用。进一步通过荧光共定位观察发现,M蛋白与KPNA1蛋白缺失体(DN-KPNA1)共表达不改变M蛋白的细胞核定位,而与KPNB1蛋白缺失体(DN-KPNB1)共表达后导致M蛋白变为细胞质定位,说明M蛋白入核转运需要KPNB1蛋白的参与。另外,将M蛋白与Ran蛋白突变体Ran-Q69L共表达,荧光观察发现M蛋白同样由细胞核定位变为细胞质定位,说明M蛋白入核转运还需要Ran蛋白的辅助。【结论】KPNB1和Ran蛋白共同介导NDV M蛋白的入核转运,其过程是KPNB1蛋白首先和M蛋白发生相互作用并形成复合物,然后通过Ran蛋白的辅助作用完成入核转运。  相似文献   

7.
细胞核作为细胞中重要的遗传物质存储、复制和转录的结构,涉及大量信息和物质的传输活动,尤其是蛋白质的入核转运一直以来都是研究的热点问题之一。本研究证明,植物细胞质可以有效应用于动物细胞体系研究蛋白质入核转运。本文利用病毒SV40抗原蛋白中的核定位信号(nuclear localization signal,NLS)标记绿色荧光蛋白(green fluorescent protein,GFP),通过拟南芥细胞质的介导,利用He La细胞核建立研究蛋白质入核转运的半细胞体系。结果显示,植物细胞质结合NLS片段能改变GFP在He La细胞核内外的分布,实现对目标蛋白入核过程的介导,使GFP-NLS最后定位于细胞核内。这也意味着通过He La细胞建立起的半细胞体系能为蛋白质入核转运研究提供一个有效的研究体系。  相似文献   

8.
信号蛋白分子的入核及出核转运是细胞因子和生长因子信号转导途径中的重要环节.核定位序列(NLS)是信号蛋白分子上与入核转运相关的氨基酸序列.核孔复合物(NPC)、核转运蛋白importin和能量供应体Ran/TC4在入核转运过程中也发挥了重要作用.另外,很多细胞因子和生长因子或其受体上所含有的NLS序列也具有核定位功能,并可能通过“伴侣机制”参与其他信号蛋白分子的入核转运.  相似文献   

9.
细胞质内信号分子的核转位及其机制   总被引:1,自引:0,他引:1  
Liu XH  Tang CS 《生理科学进展》1999,30(2):147-150
细胞外信号通过受体及细胞内信号转导引起细胞生长,增殖,分化,凋亡等细胞核反应。进入细胞质内的信号分子及其活化产物必须经过细胞核膜上的核孔复合体(NPC),在核定位信号的介导下,由特异性的载体转运入核,该过程涉及小分子的GTPase Ran蛋白及多种可溶性因子。本文简要综述细胞质内信号分子通过核膜向细胞核内转运的过程及其调控机制。  相似文献   

10.
郭晓雨  刘俊  汪天 《西北植物学报》2015,35(7):1488-1496
植物为了抵御病原菌的侵染而进化出一套独特的先天免疫系统,它主要通过定位在细胞膜或细胞质上的受体介导并激活下游抗病基因表达而实现,但在这些信号传递过程中,细胞质的信号向核传递需要核质运输相关元件的参与。虽然目前只有个别核质运输的信号元件被证实参与了植物的先天免疫信号传递过程,但越来越多的研究表明核质运输是连接抗病基因表达和信号识别受体的一个主要方式。研究发现,病原菌的效应因子也可以利用植物核质运输机制侵入到宿主细胞核内,调控敏感基因的表达,干扰植物的免疫反应。该文对近年来国内外有关植物的核质运输机制、各层次免疫反应需要核质运输作用、核质运输相关蛋白在免疫反应中的作用等方面对核质运输参与植物先天免疫反应研究的研究进展进行综述,并指出该领域未来研究的主要内容和方向。  相似文献   

11.
12.
Transport of proteins containing a nuclear localization signal (NLS) into the nucleus is mediated by nuclear transport receptors called importins, typically dimmers of a cargo-binding α-subunit and a β-subunit that mediates translocation through the nuclear pore complexes (NPCs). However, how proteins without canonical NLS move into the nucleus is not well understood. Recent results indicate that phospholipids, such as phosphatidic acid, play important roles in the intracellular translocation of proteins between the nucleus and cytoplasm.  相似文献   

13.
Ras proteins regulate a wide range of biological processes by interacting with a variety of effector proteins. In addition to the known role in tumorigensis, the activated form of Ras exhibits growth-inhibitory effects by unknown mechanisms. Several Ras effector proteins identified as mediators of apoptosis and cell-cycle arrest also exhibit properties normally associated with tumor suppressor proteins. Here, we show that Ras effector RASSF5/NORE-1 binds strongly to K-Ras but weakly to both N-Ras and H-Ras. RASSF5 was found to localize both in the nucleus and the nucleolus in contrast to other Ras effector proteins, RASSF1C and RASSF2, which are localized in the nucleus and excluded from nucleolus. A 50 amino acid residue transferable arginine-rich nucleolar localization signal (NoLS) identified in RASSF5 is capable of interacting with importin-beta and transporting the cargo into the nucleolus. Surprisingly, similar arginine-rich signals identified in RASSF1C and RASSF2 interact with importin-alpha and transport the heterologous cytoplasmic proteins to the nucleus. Interestingly, mutation of arginine residues within these nuclear targeting signals prevented interaction of Ras effector proteins with respective transport receptors and abolished their nuclear translocation. These results provide evidence for the first time that arginine-rich signals are able to recognize different nuclear import receptors and transport the RASSF proteins into distinct sub-cellular compartments. In addition, our data suggest that the nuclear localization of RASSF5 is critical for its cell growth control activity. Together, these data suggest that the transport of Ras effector superfamily proteins into the nucleus/nucleolus may play a vital role in modulating Ras-mediated cell proliferation during tumorigenesis.  相似文献   

14.
Mechanisms of receptor-mediated nuclear import and nuclear export   总被引:24,自引:4,他引:20  
Nuclear transport of proteins and RNA occurs through the nuclear pore complex and is mediated by a superfamily of transport receptors known collectively as karyopherins. Karyopherins bind to their cargoes by recognition of specific nuclear localization signals or nuclear export signals. Transport through the nuclear pore complex is facilitated by transient interactions between the karyopherins and the nuclear pore complex. The interactions of karyopherins with their cargoes are regulated by the Ras-related GTPase Ran. Ran is assisted in this process by proteins that regulate its GTPase cycle and subcellular localization. In this review, we describe several of the major transport pathways that are conserved in higher and lower eukaryotes, with particular emphasis on the role of Ran. We highlight the latest advances in the structure and function of transport receptors and discuss recent examples of steroid hormone receptor import and regulation by signal transduction pathways. Understanding the molecular basis of nuclear transport may provide insight into human diseases by revealing how nucleocytoplasmic trafficking regulates protein activity.  相似文献   

15.
The signal responsible for the nuclear localization of the progesterone receptor has been characterized. It is a complex signal. The study of the mechanism of this nuclear localization has revealed that the receptor continuously shuttles between the nucleus and the cytoplasm. The receptor diffuses into the cytoplasm and is constantly and actively transported back into the nucleus. The same phenomenon exists for estradiol and glucocorticoid receptors. The mechanism of entry of proteins into the nucleus is well documented, whereas the mechanism of their outward movement into the cytoplasm is not understood. We have grafted different nuclear localization signals (NLSs) onto β-galactosidase and have studied the traffic of this protein using heterokaryons and microinjection experiments. We have demonstrated that the same NLSs are involved in both the inward and the outward movement of proteins through the nuclear membrane. These results suggest that the nucleocytoplasmic shuttling may be a general phenomenon for nuclear proteins that could possibly undergo modifications in the cytoplasm and exert some biological activities there. These conclusions also imply that at least part of the cellular machinery involved in the nuclear import of proteins may function bidirectionally. Using these techniques, we have shown that two major antiprogestins, RU486 and ZK98299, act at the same distal level of hormone action.  相似文献   

16.
Nuclear import of proteins is determined by specific signals that allow them to bind to receptors that mediate their energy-dependent transport through the nuclear pore. These signals are termed nuclear localization signals and do not constitute a specific consensus sequence. Among them, the most characterized correspond to monopartite and bipartite nuclear localization signals, which interact with the importin alpha/beta heterodimer. We previously described a cytotoxic variant of human pancreatic-ribonuclease that is actively transported into the nucleus. Here, we show that this protein interacts with importin alpha through different basic residues, including Lys1 and the arginine clusters 31-33 and 89-91. Although these residues are scattered along the sequence, they are close in the three-dimensional structure of the protein and their topological disposition strongly resembles that of a classical bipartite nuclear localization signal.  相似文献   

17.
Accurate control of macromolecule transport between nucleus and cytoplasm underlines several essential biological processes, including gene expression. According to the canonical model, nuclear import of soluble proteins is based on nuclear localization signals and transport factors. We challenge this view by showing that nuclear localization of the actin‐dependent motor protein Myosin‐1C (Myo1C) resembles the diffusion–retention mechanism utilized by inner nuclear membrane proteins. We show that Myo1C constantly shuttles in and out of the nucleus and that its nuclear localization does not require soluble factors, but is dependent on phosphoinositide binding. Nuclear import of Myo1C is preceded by its interaction with the endoplasmic reticulum, and phosphoinositide binding is specifically required for nuclear import, but not nuclear retention, of Myo1C. Our results therefore demonstrate, for the first time, that membrane association and binding to nuclear partners is sufficient to drive nuclear localization of also soluble proteins, opening new perspectives to evolution of cellular protein sorting mechanisms.  相似文献   

18.
Protein transport into the nucleus is generally considered to involve specific nuclear localization signals (NLS) though it is becoming increasingly evident that efficient and well controlled import of proteins which lack a canonical NLS also occurs in cells. Vpx, a 112 amino acid protein from human immunodeficiency virus type 2 (HIV-2) and the closely related simian immunodeficiency virus (SIV) is one such protein, which does not have an identifiable canonical NLS and is yet efficiently imported to the nuclear compartment. Here we report that Vpx protein is imported to the nucleus independently of virus-encoded cofactors. When fusions of truncated versions of Vpx with full-length beta-galactosidase (beta-Gal) were tested, the region from Vpx 61 to 80 was found to be sufficient to mediate the import of the heterologous cytoplasmic protein to the nucleus. Inactivation of Vpx NLS precluded nuclear import of Vpx and reduced virus replication in non-dividing macrophage cultures, even when functional integrase and Gag matrix proteins implicated in viral nuclear import were present. Importantly, we identified and characterized a novel type of 20 amino acid transferable nuclear import signal in Vpx that is distinct from other import signals described. In addition, we show that the minimal nuclear targeting domain identified here overlaps with helical domain III (amino acid (aa) 64-82) and the structural integrity of this helical motif is critical for the nuclear import of Vpx. Taken together, these data suggest that Vpx is imported to the nucleus via a novel import pathway that is dependent on its 20 amino acid unique nuclear targeting signal, and that the nuclear import property of Vpx is critical for the optimal virus replication in non-dividing cells such as macrophages.  相似文献   

19.
Although many viruses replicate in the nucleus, little is known about the processes involved in the nuclear import of viral genomes. We show here that in vitro generated core particles of human hepatitis B virus bind to nuclear pore complexes (NPCs) in digitonin-permeabilized mammalian cells. This only occurred if the cores contained phosphorylated core proteins. Binding was inhibited by wheat germ agglutinin, by antinuclear pore complex antibodies, and by peptides corresponding either to classical nuclear localization signals (NLS) or to COOH-terminal sequences of the core protein. Binding was dependent on the nuclear transport factors importins (karyopherins) alpha and beta. The results suggested that phosphorylation induces exposure of NLS in the COOH-terminal portion of the core protein that allows core binding to the NPCs by the importin- (karyopherin-) mediated pathway. Thus, phosphorylation of the core protein emerged as an important step in the viral replication cycle necessary for transport of the viral genome to the nucleus.  相似文献   

20.
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