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泛素化/去泛素化系统的生物化学和生物学功能 总被引:2,自引:0,他引:2
泛素是生物体内一种非常重要的小分子蛋白,在多种信号通路中都起重要的调节作用。该文对近两三年国际上对泛素化/去泛素化系统的研究进展做了简单的概述,并对未来的发展方向进行了预测。 相似文献
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泛素在真核生物体内广泛存在,泛素化修饰是转录后的修饰方式之一;组蛋白是染色质的主要成分之一,与基因的表达有密切关系。组蛋白的泛素化修饰与经典的蛋白质的泛素调节途径不同,不会导致蛋白质的降解,但是能够招募核小体到染色体、参与X染色体的失活、影响组蛋白的甲基化和基因的转录。组蛋白的去泛素化修饰同样与染色质的结构及基因表达密切相关。组蛋白的泛素化和磷酸化、乙酰化、甲基化修饰之间还存在协同和级联效应。 相似文献
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非泛素依赖地降解蛋白质研究进展 总被引:1,自引:0,他引:1
如何识别和选择性降解蛋白质是细胞生命过程中非常重要的环节,泛素-蛋白酶体需能降解途径的发现,揭示了蛋白质在细胞内选择性降解的普遍方式,成为研究焦点.然而,很少关注蛋白酶体以非泛素依赖方式降解蛋白质的可能性.近年来,已发现不少蛋白质被蛋白酶体以非泛素依赖方式降解.该途径涉及降解某些短寿命的调节蛋白、错误折叠蛋白、衰老蛋白和氧化蛋白,以及新合成蛋白的"质量控制",并涉及病理过程如癌症、神经退行性疾病,所以具有非常重要的生理和病理作用.总结了近一二十年来发现的一些具有代表性的被蛋白酶体以非泛素依赖方式降解的蛋白质,并重点论述了其作用的分子机制,以期以点带面地展示这一领域的研究概况. 相似文献
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2004年诺贝尔化学奖授予了在蛋白质降解方面做出卓越贡献的3位科学家.他们的研究使我们更加深刻理解了细胞内通过将蛋白质泛素化后而将其降解的过程,以保证了细胞内蛋白质的质量和数量平衡,3位科学家的工作对于理解细胞的许多生理过程和新药的开发具有重要的意义。 相似文献
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RLR[retinoic acid-inducible gene Ⅰ(RIG-Ⅰ)-like Receptors]是一类表达在胞浆中的模式识别受体, 在识别细胞质中经病毒复制产生的病毒RNA后, 启动一系列信号级联反应, 以诱导机体Ⅰ型干扰素及干扰素诱导的抗病毒基因的表达, 最后达到清除机体病毒感染的目的。由于在病毒感染时机体干扰素反应必须迅速启动, 当病毒清除后干扰素反应又需要立即恢复到正常本底水平, 因此RLR激活的信号转导途径受到了严格的调控, 其中就包括由E3泛素连接酶参与的泛素化修饰调控和由去泛素化酶参与的去泛素化修饰调控。自2003年成功鉴定出鱼类干扰素基因以来, 鱼类也被发现具有保守的RLR信号转导途径诱导干扰素抗病毒免疫反应, 该信号途径同样受到泛素化修饰的调控。文章总结了近年来泛素化修饰在哺乳类和鱼类RLR介导的抗病毒免疫应答通路中的调节机制。 相似文献
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自噬与泛素化蛋白降解途径的分子机制及其功能 总被引:2,自引:0,他引:2
细胞内所有的蛋白质和大多数的细胞外蛋白都在不断的进行更新,即它们在不断地被降解,并被新合成的蛋白质取代。细胞内蛋白的降解主要通过两个途径,即自噬和泛素蛋白酶体系统。自噬是一种由溶酶体介导的细胞内过多或异常蛋白质的降解机制。在细胞内主要有3种类型的自噬,即分子伴侣介导的自噬、微自噬和巨自噬。泛素蛋白酶体系统是由泛素介导的一种高度复杂的蛋白降解机制,它参与降解细胞内许多蛋白质并且这个过程具有高度特异性。细胞内蛋白质的降解参与调节许多细胞过程,包括细胞周期、DNA修复、细胞生长和分化、细胞质量的控制、病原生物的感染反应和细胞凋亡等。许多严重的人类疾病被认为是由于蛋白质降解系统的紊乱而引起的。文章综述了自噬和泛素化途径及其分子机制,以及蛋白质降解系统紊乱的病理学意义。 相似文献
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低温胁迫限制植物的生长发育及其地理分布.不同物种在低温胁迫反应过程中发生了重大的转录组重新编程,许多蛋白质被认为是这种适应性反应的重要因子.泛素化是一种翻译后修饰,能够调控蛋白的丰度、活性、亚细胞区隔和转运,并参与低温应答过程.E3是泛素-蛋白酶体系统的主要组成部分,识别目标蛋白,并将泛素从E2上转移到目标蛋白上.由于... 相似文献
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《DNA Repair》2017
Post-translational modifications of Proliferating Cell Nuclear Antigen (PCNA) play a key role in regulating the bypass of DNA lesions during DNA replication. PCNA can be monoubiquitylated at lysine 164 by the RAD6-RAD18 ubiquitin ligase complex. Through this modification, PCNA can interact with low fidelity Y family DNA polymerases to promote translesion synthesis. Monoubiquitylated PCNA can be polyubiquitylated on lysine 63 of ubiquitin by a further ubiquitin-conjugating complex. This modification promotes a template switching bypass process in yeast, while its role in higher eukaryotes is less clear.We investigated the function of PCNA ubiquitylation using a PCNAK164R mutant DT40 chicken B lymphoblastoma cell line, which is hypersensitive to DNA damaging agents such as methyl methanesulfonate (MMS), cisplatin or ultraviolet radiation (UV) due to the loss of PCNA modifications. In the PCNAK164R mutant we also detected cell cycle arrest following UV treatment, a reduced rate of damage bypass through translesion DNA synthesis on synthetic UV photoproducts, and an increased rate of genomic mutagenesis following MMS treatment. PCNA-ubiquitin fusion proteins have been reported to mimic endogenous PCNA ubiquitylation. We found that the stable expression of a PCNAK164R-ubiquitin fusion protein fully or partially rescued the observed defects of the PCNAK164R mutant. The expression of a PCNAK164R-ubiquitinK63R fusion protein, on which the formation of lysine 63-linked polyubiquitin chains is not possible, similarly rescued the cell cycle arrest, DNA damage sensitivity, reduction of translesion synthesis and increase of MMS-induced genomic mutagenesis. Template switching bypass was not affected by the genetic elimination of PCNA polyubiquitylation, but it was reduced in the absence of the recombination proteins BRCA1 or XRCC3. Our study found no requirement for PCNA polyubiquitylation to protect cells from replication-stalling DNA damage. 相似文献
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Endocytosis of Ubiquitylation‐Deficient EGFR Mutants via Clathrin‐Coated Pits is Mediated by Ubiquitylation 
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下载免费PDF全文 Arola Fortian Lai K. Dionne Sun H. Hong Woong Kim Steven P. Gygi Simon C. Watkins Alexander Sorkin 《Traffic (Copenhagen, Denmark)》2015,16(11):1137-1154
Signaling by epidermal growth factor receptor (EGFR) is controlled by endocytosis. However, mechanisms of EGFR endocytosis remain poorly understood. Here, we found that the EGFR mutant lacking known ubiquitylation, acetylation and clathrin adaptor AP‐2‐binding sites (21KRΔAP2) was internalized at relatively high rates via the clathrin‐dependent pathway in human duodenal adenocarcinoma HuTu‐80 cells. RNA interference analysis revealed that this residual internalization is strongly inhibited by depletion of Grb2 and the E2 ubiquitin‐conjugating enzyme UbcH5b/c, and partially affected by depletion of the E3 ubiquitin ligase Cbl and ubiquitin‐binding adaptors, indicating that an ubiquitylation process is involved. Several new ubiquitin conjugation sites were identified by mass spectrometry in the 21KRΔAP2 mutant, suggesting that cryptic ubiquitylation may mediate endocytosis of this mutant. Total internal reflection fluorescence microscopy imaging of HuTu‐80 cells transfected with labeled ubiquitin adaptor epsin1 demonstrated that the ubiquitylation‐deficient EGFR mutant was endocytosed through a limited population of epsin‐enriched clathrin‐coated pits (CCPs), although with a prolonged CCP lifetime. Native EGFR was recruited with the same efficiency into CCPs containing either AP‐2 or epsin1 that were tagged with fluorescent proteins by genome editing of MDA‐MD‐231 cells. We propose that two redundant mechanisms, ubiquitylation and interaction with AP‐2, contribute to EGFR endocytosis via CCPs in a stochastic fashion. 相似文献
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Plans V Scheper J Soler M Loukili N Okano Y Thomson TM 《Journal of cellular biochemistry》2006,97(3):572-582
The heterodimeric ubiquitin conjugating enzyme (E2) UBC13-UEV mediates polyubiquitylation through lysine 63 of ubiquitin (K63), rather than lysine 48 (K48). This modification does not target proteins for proteasome-dependent degradation. Searching for potential regulators of this variant polyubiquitylation we have identified four proteins, namely RNF8, KIA00675, KF1, and ZNRF2, that interact with UBC13 through their RING finger domains. These domains can recruit, in addition to UBC13, other E2s that mediate canonical (K48) polyubiquitylation. None of these RING finger proteins were known previously to recruit UBC13. For one of these proteins, RNF8, we show its activity as a ubiquitin ligase that elongates chains through either K48 or K63 of ubiquitin, and its nuclear co-localization with UBC13. Thus, our screening reveals new potential regulators of non-canonical polyubiquitylation. 相似文献
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游离脂肪酸(free fatty acid,FFA)是动物一种重要能量来源,同时它还是一种重要的信号分子,其生理功能和作用机制长期以来倍受关注. 最近研究表明,细胞膜存在FFA的特定孤儿型G蛋白偶联膜受体家族.中长链游离脂肪酸是GPR40和GPR120的配基,而短链游离脂肪酸则是GPR41和GPR43的配基. 该受体家族可以介导游离脂肪酸,通过ERK、PI3K-Akt和MAPK信号通路,在维持机体内的葡萄糖稳态、脂肪形成、白细胞功能和细胞增殖等生理过程中发挥重要作用. 本文就游离脂肪酸G蛋白偶联受体的结构、分布、配体选择性、下游信号通路,及其介导FFA生理功能的最新研究进展进行简要综述. 相似文献
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Antimicrobial proteins and peptides (AMPs) are important effectors of the innate immune system that play a vital role in the prevention of infections. Recent advances have highlighted the similarity between AMPs and amyloid proteins. Using the Eosinophil Cationic Protein as a model, we have rationalized the structure-activity relationships between amyloid aggregation and antimicrobial activity. Our results show how protein aggregation can induce bacteria agglutination and cell death. Using confocal and total internal reflection fluorescence microscopy we have tracked the formation in situ of protein amyloid-like aggregates at the bacteria surface and on membrane models. In both cases, fibrillar aggregates able to bind to amyloid diagnostic dyes were detected. Additionally, a single point mutation (Ile13 to Ala) can suppress the protein amyloid behavior, abolishing the agglutinating activity and impairing the antimicrobial action. The mutant is also defective in triggering both leakage and lipid vesicle aggregation. We conclude that ECP aggregation at the bacterial surface is essential for its cytotoxicity. Hence, we propose here a new prospective biological function for amyloid-like aggregates with potential biological relevance. 相似文献
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Obin M Lee BY Meinke G Bohm A Lee RH Gaudet R Hopp JA Arshavsky VY Willardson BM Taylor A 《The Journal of biological chemistry》2002,277(46):44566-44575
G proteins (Galphabetagamma) are essential signaling molecules, which dissociate into Galpha and Gbetagamma upon activation by heptahelical membrane receptors. We have identified the betagamma subunit complex of the photoreceptor-specific G protein, transducin (T), as a target of the ubiquitin-proteasome pathway. Ubiquitylated species of the transducin gamma-subunit (Tgamma) but not the alpha- or beta-subunits were assembled de novo in bovine photoreceptor preparations. In addition, Tgamma was exclusively ubiquitylated when Tbetagamma was dissociated from Talpha. Ubiquitylation of Tbetagamma on Tgamma was selectively catalyzed by human ubiquitin-conjugating enzymes UbcH5 and UbcH7 and was coincident with degradation of the entire Tbetagamma subunit complex in vitro by a mechanism requiring ATP and the proteasome. We also show that Tbetagamma association with phosducin, a photoreceptor-specific protein of unknown physiological function, blocks Tbetagamma ubiquitylation and subsequent degradation. Phosphorylation of phosducin by Ca(2+)/calmodulin-dependent protein kinase II, which inhibits phosducin-Tbetagamma complex formation, completely restored Tbetagamma ubiquitylation and degradation. We conclude that Tbetagamma is a substrate of the ubiquitin-proteasome pathway and suggest that phosducin serves to protect Tbetagamma following the light-dependent dissociation of Talphabetagamma. 相似文献