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硒蛋白的分子生物学及与疾病的关系* 总被引:3,自引:0,他引:3
硒蛋白是微量元素硒在体内存在和发挥生物功能的主要形式。因硒蛋白的活性中心硒代半胱氨酸由传统终止码TGA编码,故从基因组中预测硒蛋白以及用基因工程技术表达硒蛋白均很困难。有关硒抗氧化、对癌症、神经退行性疾病和病毒作用的报导较多,但结论并不一致。本文综述了硒蛋白基因预测、蛋白质表达调控以及硒和硒蛋白对癌症、神经退行性疾病和病毒的作用及机制等方面的近期进展,研究提高硒蛋白生物信息学预测准确率和基因工程表达量的方法,分析了解硒蛋白与疾病发生发展的关系和机制,探索不同硒蛋白作为预防药物开发、作为癌症治疗和药物筛选靶标的可能性。 相似文献
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硒蛋白是一类以硒代半胱氨酸为活性中心的蛋白质,利用硒氢基的强还原性,硒蛋白在生物体内发挥重要的抗氧化功能。目前发现,人类基因组中有25种硒蛋白的编码基因,其中硒蛋白R是唯一一个含有硒代半胱氨酸的甲硫氨酸亚砜还原酶,它位于细胞质及细胞核中,由于其空间结构和硒元素的强亲核性,硒蛋白R能特异性还原R型甲硫氨酸亚砜中被氧化的硫元素。硒蛋白R能够与肌动蛋白、瞬时电位通道蛋白及β-淀粉样蛋白等多种蛋白质相互作用,可能在中枢神经系统中具有重要的功能,并与神经退行性疾病的发生发展具有密切关系。 相似文献
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硒是哺乳动物必需的一种微量营养元素,主要以硒代半胱氨酸的形式存在于各种硒蛋白中,硒的主要生物功能通过硒蛋白实现.在25种哺乳动物硒蛋白中,有7种硒蛋白位于内质网,分别为2型脱碘酶、15-kDa硒蛋白、硒蛋白M、硒蛋白T、硒蛋白K、硒蛋白S和硒蛋白N.除了2型脱碘酶外,对其余内质网硒蛋白知之甚少.最近一些研究显示,一些内质网硒蛋白在氧化还原平衡调节、蛋白质折叠质量控制、错误折叠蛋白从内质网逆向转运至胞质、Ca2+稳态调节、内质网应激调节及炎症调节等过程中发挥作用.本文介绍了每种内质网硒蛋白的结构、功能及其生理和病理作用的一些最新研究进展,并对未来需要研究的内容进行了展望. 相似文献
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富硒灵芝中一种新含硒蛋白的纯化、性质及其自由基清除活性研究 总被引:3,自引:2,他引:3
通过硫酸铵沉淀、离子交换层析和分子排阻层析等方法, 从富硒灵芝中获得了一种新的含硒蛋白, 命名为Se-GL-P, 并研究了此蛋白的性质、抗氧化活性与其硒含量间的关系. 结果表明, 此蛋白的分子量为36600, 分子中约含有19.8%的糖链, N端的氨基酸残基序列为DINGGGATLPQKLYLTPDVL, 属于DING蛋白家族. 硒含量为4.87 mg/g, 具有较高的羟自由基和超氧自由基清除活性. 研究发现, Se-GL-P的抗氧化活性的提高与其中硒含量的提高相关. 相似文献
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硒蛋白的抗氧化性研究与第21个氨基酸的发现 总被引:7,自引:0,他引:7
硒是人体必需的微量元素,以硒代半胱氨酸(Sec)的形式存在于蛋白质中作为硒酶的活性中心发挥作用,其生物功能主要是抗氧化。由于硒与人体健康具有十分密切的关系,所以硒蛋白的研究有着重要的理论和实际意义。本文以第一个硒蛋白细胞谷胱甘肽过氧化物酶为例,结合作者自己的工作,重点对该硒酶的结构、催化机制和模拟进行了综述,并就TGA编码Sec致第21个氨基酸的发现以及基于硒代半胱氨酸插入元件(SECIS)的特征寻找新硒蛋白的研究进展进行了介绍。 相似文献
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糖尿病是危害人类健康的全球性重大疾病,胰岛素抵抗是诱发2型糖尿病的重要因素。微量必需元素硒与人体健康密切相关,通过硒蛋白发挥多种重要生物学功能。近年来硒与糖尿病的关系引人关注,早期研究表明硒具有类胰岛素作用,可望用于防治糖尿病,但近来的人群试验和动物研究却表明硒在糖尿病发生发展中的作用具有两面性,长期补充一定剂量的硒反而增加了胰岛素抵抗和2型糖尿病的发病率。而且,硒在糖尿病发生发展中的两面性被证实与几种硒蛋白密切相关,包括谷胱甘肽过氧化物酶1(GPx1)、硒蛋白S(SelS)和硒蛋白P(SelP)等。本文结合本课题组的工作介绍了硒在糖尿病中的两面性以及硒蛋白在糖尿病发生发展中的作用,并对未来的研究方向进行了展望。 相似文献
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Tengrui Shi Jianxi Song Guanying You Yujie Yang Qiong Liu Nan Li 《Molecules (Basel, Switzerland)》2021,26(5)
MsrB1 used to be named selenoprotein R, for it was first identified as a selenocysteine containing protein by searching for the selenocysteine insert sequence (SECIS) in the human genome. Later, it was found that MsrB1 is homologous to PilB in Neisseria gonorrhoeae, which is a methionine sulfoxide reductase (Msr), specifically reducing L-methionine sulfoxide (L-Met-O) in proteins. In humans and mice, four members constitute the Msr family, which are MsrA, MsrB1, MsrB2, and MsrB3. MsrA can reduce free or protein-containing L-Met-O (S), whereas MsrBs can only function on the L-Met-O (R) epimer in proteins. Though there are isomerases existent that could transfer L-Met-O (S) to L-Met-O (R) and vice-versa, the loss of Msr individually results in different phenotypes in mice models. These observations indicate that the function of one Msr cannot be totally complemented by another. Among the mammalian Msrs, MsrB1 is the only selenocysteine-containing protein, and we recently found that loss of MsrB1 perturbs the synaptic plasticity in mice, along with the astrogliosis in their brains. In this review, we summarized the effects resulting from Msr deficiency and the bioactivity of selenium in the central nervous system, especially those that we learned from the MsrB1 knockout mouse model. We hope it will be helpful in better understanding how the trace element selenium participates in the reduction of L-Met-O and becomes involved in neurobiology. 相似文献
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《中国化学快报》2023,34(7):108043
Selenium plays various biological functions in the form of selenoprotein in human body. Brain is one of the most abundant organs of selenoprotein, which plays an important role in maintaining brain redox homeostasis, signal transduction pathway regulation and neuroimmune regulation. Yet, nano-selenium have attracted much attention for their high bioavailability and low toxicity. Nano-selenium are of great application potential in field of biomedical nervous system. Recently, investigation on selenoprotein and nano-selenium has gradually become a new hotspot for the important functions of selenium in human nervous system. In this article, we wish to review recent progresses and give a perspective. 相似文献
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以硒蛋白K(SelK)突变体为"诱饵", 采用酵母双杂交系统对人肝cDNA文库进行筛选, 得到一个与SelK相互作用的蛋白──环腺苷酸应答元件结合蛋白3(CREB3). 将SelK与CREB3共同转染酵母细胞, 验证了SelK与CREB3的相互作用; 并采用受体漂白、敏化发射和荧光寿命3种荧光共振能量转移方法进一步验证了二者间的相互作用, 发现其不受SelK中硒代半胱氨酸(Sec)的影响. 推测SelK可能通过其Sec之前的区域与CREB3发生作用, 参与CREB3介导的内质网相关降解过程, 影响相关癌症的转移和发展. 相似文献
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Complementing genomics with proteomics: the membrane subproteome of Pseudomonas aeruginosa PAO1 总被引:1,自引:0,他引:1
Nouwens AS Cordwell SJ Larsen MR Molloy MP Gillings M Willcox MD Walsh BJ 《Electrophoresis》2000,21(17):3797-3809
With the completion of many genome projects, a shift is now occurring from the acquisition of gene sequence to understanding the role and context of gene products within the genome. The opportunistic pathogen Pseudomonas aeruginosa is one organism for which a genome sequence is now available, including the annotation of open reading frames (ORFs). However, approximately one third of the ORFs are as yet undefined in function. Proteomics can complement genomics, by characterising gene products and their response to a variety of biological and environmental influences. In this study we have established the first two-dimensional gel electrophoresis reference map of proteins from the membrane fraction of P. aeruginosa strain PA01. A total of 189 proteins have been identified and correlated with 104 genes from the P. aeruginosa genome. Annotated membrane proteins could be grouped into three distinct categories: (i) those with functions previously characterised in P. aeruginosa (38%); (ii) those with significant sequence similarity to proteins with assigned function or hypothetical proteins in other organisms (46%); and (iii) those with unknown function (16%). Transmembrane prediction algorithms showed that each identified protein sequence contained at least one membrane-spanning region. Furthermore, the current methodology used to isolate the membrane fraction was shown to be highly specific since no contaminating cytosolic proteins were characterised. Preliminary analysis showed that at least 15 gel spots may be glycosylated in vivo, including three proteins that have not previously been functionally characterised. The reference map of membrane proteins from this organism is now the basis for determining surface molecules associated with antibiotic resistance and efflux, cell-cell signalling and pathogen-host interactions in a variety of P. aeruginosa strains. 相似文献
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The post-genomic era is characterized by the deposition of sequence information for entire genomes in databases. Currently, besides the protein sequences for known human proteins, there are partial sequences from thousands more human proteins for which no biological function has been assigned. A powerful new tool for the unambiguous identification and characterization of gel-separated proteins is accomplished by the combination of mass spectrometry and sequence database searching. This combination provides the cancer biologist with the ability to (i) identify the potential protein:protein associations and (ii) fully characterize function-critical post-translational modifications, both directly from silver-stained polyacrylamide gels. In this report we describe the application of tandem mass spectrometry and database searching to two problems which are prototypical for cancer research and indeed for biomedical research in general. The first is the identification of gel-separated, low abundance proteins based on amino acid sequence composition following coimmunoprecipitation with the human apoptosis inhibitor protein BclX(L). The second is the determination of the precise sites of phosphorylation of the human regulatory protein 4E-BP1, which controls mRNA translation. 相似文献
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聚类是芯片数据分析中被广泛使用的方法。未知基因的功能通常通过其与已知基因在不同生物状态下具有表达相似性来进行预测。然而,还未有人就这种通过表达相似性来进行功能注释的方法的可靠性进行评估。本文利用Gene Ontology对表达相似性和基因功能相似性的相关关系进行了全面的研究。研究表明,尽管表达谱的相似性和基因功能相似性之间有一定的依赖关系,但相关性较弱。在Gene Ontology的三大类中,相对生物过程和分子功能,基因表达谱的相似性更有助于细胞组分的注释。本文的研究结果对于基因功能的预测有一定的指导意义。 相似文献
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化学生物学新前沿——化学蛋白质组学 总被引:7,自引:0,他引:7
随着包括人类在内的主要模式生物的基因组计划的完成,生命科学的研究重心转向蛋白质组的研究--在对应基因组的整体蛋白质水平上系统研究调控细胞生命活动的蛋白质.化学蛋白质组学是化学生物学在后基因组时代的最新发展:化学蛋白质组学利用化学小分子为工具和手段,以基于靶蛋白质功能的新战略探测体内蛋白质组,是新一代的功能蛋白质组学.本文综述了化学蛋白质组学的最新进展、有关技术及其在生物医学和药物研发等方面的应用,并对化学蛋白质组学的发展趋势和前景进行了讨论. 相似文献
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The amino acid selenocysteine represents the major biological form of selenium. Both the synthesis of selenocysteine and its co-translational incorporation into selenoproteins in response to an in-frame UGA codon, require a complex molecular machinery. To decode the UGA Sec codon in eubacteria, this machinery comprises the tRNASec, the specialized elongation factor SelB and the SECIS hairpin in the selenoprotein mRNAs. SelB conveys the Sec-tRNASec to the A site of the ribosome through binding to the SECIS mRNA hairpin adjacent to the UGA Sec codon. SelB is thus a bifunctional factor, carrying functional homology to elongation factor EF-Tu in its N-terminal domain and SECIS RNA binding activity via its C-terminal extension. In archaea and eukaryotes, selenocysteine incorporation exhibits a higher degree of complexity because the SECIS hairpin is localized in the 3' untranslated region of the mRNA. In the last couple of years, remarkable progress has been made toward understanding the underlying mechanism in mammals. Indeed, the discovery of the SECIS RNA binding protein SBP2, which is not a translation factor, paved the way for the subsequent isolation of mSelB/EFSec, the mammalian homolog of SelB. In contrast to the eubacterial SelB, the specialized elongation factor mSelB/EFSec the SECIS RNA binding function. The role is carried out by SBP2 that also forms a protein-protein complex with mSelB/EFSec. As a consequence, an important difference between the eubacterial and eukaryal selenoprotein synthesis machineries is that the functions of SelB are divided into two proteins in eukaryotes. Obviously, selenoprotein synthesis represents a higher degree of complexity than anticipated, and more needs to be discovered in eukaryotes. In this review, we will focus on the structural and functional aspects of the SelB and SBP2 factors in selenoprotein synthesis. 相似文献