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Ran是细胞内的一种具有GTP酶活性的功能蛋白,可以调节染色体稳定性、细胞核组建以及核质运输等多种细胞进程.Ran结合蛋白1(Ran-binding protein 1, Rbp1p )是Ran的必要调控因子,促进Ran-GTP水解为Ran-GDP.本研究从嗜热四膜虫大核基因组中鉴定出1个保守的Ran结合蛋白基因RBP1(TTHERM_00158040, http://www.ciliate.org).实时荧光定量PCR表明,RBP1在四膜虫营养生长和有性生殖过程中都有表达,且在有性生殖过程中表达水平提高.免疫荧光定位表明,在营养 生长期Rbp1p定位于细胞质中.过表达RBP1或敲减RBP1后,细胞生长速率下降,大核的无丝分裂异常,细胞分裂末期产生了无大核的异常细胞,同时过表达RBP1导致了多小核的产生.结果表明,Rbp1p影响四膜虫细胞核的分裂进程,它的正常表达对细胞增殖过程起到重要的调节作用.  相似文献   

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Han F  Wang X  Wang Z 《Gene》2012,495(1):65-71
Diseases caused by viruses are the greatest challenge to worldwide shrimp aquaculture. Ran gene was an important antiviral gene identified from shrimp and its mRNA level was up-regulated in response to viral infection. In this investigation, a Ran isoform gene (named Ran-iso) cDNA was cloned from shrimp, Marsupenaeus japonicus. The full-length cDNA of Ran-iso was 1286 bp, including a 5′-terminal untranslated region (UTR) of 272 bp, 3′-terminal UTR of 366 bp and an open reading frame (ORF) of 648 bp encoding a polypeptide of 215 amino acids. The deduced protein was highly homologous, it shared 90.64%, 84.19%, 81.48% and 67.58% identities with Ran protein of shrimp, honey bee, human and tobacco respectively. Ran-iso gene was constitutively expressed in 6 tissues examined, including gill, hepatopancreas, hemolymph, heart, intestine and muscle. However, Ran-iso was highest expressed in hepatopancreas (p < 0.01), whereas the expressions of other five tissues were equal and relatively low. Time course analysis showed that the expression level of Ran-iso was obviously up-regulated 2.8 times (at 6 h) as much as that in the control in the hepatopancreas challenged by WSSV. This investigation might provide a clue to elucidate the shrimp innate immunity and would be helpful to shrimp disease control.  相似文献   

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A new role for nuclear transport factor 2 and Ran: nuclear import of CapG   总被引:1,自引:0,他引:1  
The small GTPase Ran plays a central role in nucleocytoplasmic transport. Nuclear transport of Ran itself depends on nuclear transport factor 2 (NTF2). Here, we report that NTF2 and Ran control nuclear import of the filamentous actin capping protein CapG. In digitonin-permeabilized cells, neither GTPγS nor the GTP hydrolysis-deficient Ran mutant RanQ69L affect transit of CapG to the nucleus in the presence of cytosol. Obstruction of nucleoporins prevents nuclear transport of CapG, and we show that CapG binds to nucleoporin62. In addition, CapG interacts with NTF2, associates with Ran and is furthermore able to bind the NTF2–Ran complex. NTF2–Ran interaction is required for CapG nuclear import. This is corroborated by a NTF2 mutant with reduced affinity for Ran and a Ran mutant that does not bind NTF2, both of which prevent CapG import. Thus, a ubiquitously expressed protein shuttles to the nucleus through direct association with NTF2 and Ran. The role of NTF2 may therefore not be solely confined to sustaining the Ran gradient in cells.  相似文献   

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Ran is a member of the superfamily of small GTPases, which cycle between a GTP-bound “on” and a GDP-bound “off” state. Ran regulates nuclear transport. In order to maintain a gradient of excess Ran·GTP within the nucleoplasm and excess Ran·GDP within the cytoplasm, the hydrolysis of Ran·GTP in the nucleoplasm should be prevented, whereas in the cytoplasm, hydrolysis is catalyzed by Ran·GAP (GTPase-activating protein). In this article, we investigate the GTPase reaction of Ran in complex with its binding protein Ran-binding protein 1 by time-resolved Fourier transform infrared spectroscopy: We show that the slowdown of the intrinsic hydrolysis of RanGTP is accomplished by tyrosine 39, which is probably misplacing the attacking water. We monitored the interaction of Ran with RanGAP, which reveals two reactions steps. By isotopic labeling of Ran and RanGAP, we were able to assign the first step to a small conformational change within the catalytic site. The following bond breakage is the rate-limiting step of hydrolysis. An intermediate of protein-bound phosphate as found for Ras or Rap systems is kinetically unresolved. This demonstrates that despite the structural similarity among the G-domain of the GTPases, different reaction mechanisms are utilized.  相似文献   

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The global shrimp aquaculture has been consistently beset by diseases that cause severe losses in production. To fight various harmful pathogens, the enhanced shrimp immunity by immunostimulants would play key roles against the invading pathogens. In aquaculture, however, the target proteins/genes which can be used for the screening of immunostimulants are very limited. Based on our previous study, in the present study, the shrimp Ran protein, which was required in shrimp antiviral phagocytosis, was used as the target protein to screen for immunostimulants. The GTPase activity assays showed that the IL-4 and lysophosphatidylcholine molecules could enhance the activity of Ran protein, suggesting that the two molecules might function in phagocytosis. When the IL-4 and lysophosphatidylcholine were respectively injected into shrimp, the results indicated that the two molecules enhanced the hemocytic phagocytosis against white spot syndrome virus (WSSV), suggesting that they improved the activity of phagocytosis through the activation of the Ran protein. It was evidenced that the enhancement of phagocytosis activity effectively inhibited the WSSV infection in shrimp, which further led to the decrease of mortalities of WSSV-infected shrimp. Therefore, our study presented a novel strategy for the screening of immunostimulants by using the key proteins in immune responses of aquatic organisms as the target proteins, which would be very helpful for the development of efficient approaches to prevent the aquatic organisms from pathogen infections.  相似文献   

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A small GTPase Ran is a key regulator for active nuclear transport. In immunoblotting analysis, a monoclonal antibody against recombinant human Ran, designated ARAN1, was found to recognize an epitope in the COOH-terminal domain of Ran. In a solution binding assay, ARAN1 recognized Ran when complexed with importin beta, transportin, and CAS, but not the Ran-GTP or the Ran-GDP alone, indicating that the COOH-terminal domain of Ran is exposed via its interaction with importin beta-related proteins. In addition, ARAN1 suppressed the binding of RanBP1 to the Ran-importin beta complex. When injected into the nucleus of BHK cells, ARAN1 was rapidly exported to the cytoplasm, indicating that the Ran-importin beta-related protein complex is exported as a complex from the nucleus to the cytoplasm in living cells. Moreover, ARAN1, when injected into the cultured cells induces the accumulation of endogenous Ran in the cytoplasm and prevents the nuclear import of SV-40 T-antigen nuclear localization signal substrates. From these findings, we propose that the binding of RanBP1 to the Ran-importin beta complex is required for the dissociation of the complex in the cytoplasm and that the released Ran is recycled to the nucleus, which is essential for the nuclear protein transport.  相似文献   

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Ran is an essential GTPase that controls nucleocytoplasmic transport, mitosis, and nuclear envelope formation. These functions are regulated by interaction of Ran with different partners, and by formation of a Ran-GTP gradient emanating from chromatin. Here, we identify a novel level of Ran regulation. We show that Ran is a substrate for p21-activated kinase 4 (PAK4) and that its phosphorylation on serine-135 increases during mitosis. The endogenous phosphorylated Ran and active PAK4 dynamically associate with different components of the microtubule spindle during mitotic progression. A GDP-bound Ran phosphomimetic mutant cannot undergo RCC1-mediated GDP/GTP exchange and cannot induce microtubule asters in mitotic Xenopus egg extracts. Conversely, phosphorylation of GTP-bound Ran facilitates aster nucleation. Finally, phosphorylation of Ran on serine-135 impedes its binding to RCC1 and RanGAP1. Our study suggests that PAK4-mediated phosphorylation of GDP- or GTP-bound Ran regulates the assembly of Ran-dependent complexes on the mitotic spindle.  相似文献   

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During mitotic exit, thousands of nuclear pore complexes (NPCs) assemble concomitant with the nuclear envelope to build a transport‐competent nucleus. Here, we show that Nup50 plays a crucial role in NPC assembly independent of its well‐established function in nuclear transport. RNAi‐mediated downregulation in cells or immunodepletion of Nup50 protein in Xenopus egg extracts interferes with NPC assembly. We define a conserved central region of 46 residues in Nup50 that is crucial for Nup153 and MEL28/ELYS binding, and for NPC interaction. Surprisingly, neither NPC interaction nor binding of Nup50 to importin α/β, the GTPase Ran, or chromatin is crucial for its function in the assembly process. Instead, an N‐terminal fragment of Nup50 can stimulate the Ran GTPase guanine nucleotide exchange factor RCC1 and NPC assembly, indicating that Nup50 acts via the Ran system in NPC reformation at the end of mitosis. In support of this conclusion, Nup50 mutants defective in RCC1 binding and stimulation cannot replace the wild‐type protein in in vitro NPC assembly assays, whereas excess RCC1 can compensate the loss of Nup50.  相似文献   

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