蛋白S基因突变及多态性的研究进展

蛋白S在生理抗凝血过程中起着重要的作用.血浆蛋白S水平低下是血栓性疾病发生和发展的危险因素之一.蛋白S基因突变及多态性可增加静脉血栓形成的危险性.本文就蛋白S的理化性质、蛋白S基因突变及多态性,以及与静脉血栓的关系作一综述.     

硒蛋白P的研究进展

硒蛋白P（SeP)是从大鼠和人血浆中分离,纯化得到的一种糖蛋白,每个硒蛋白P多肽含有10个硒代半胱氨酸,硒蛋白P中的硒含量占大鼠和人血浆中硒含量的50%以上,在其mRNA开放阅读框架中克隆的cDNA的序列含有10个UGA密码子。硒代半胱氨酸在一个UGA密码子处嵌入蛋白的一级结构,尽管对硒蛋白P功能还没有彻底了解,它的一种非常可能的作用是作为一种胞外抗氧化剂,大鼠血浆中的硒蛋白P在体内实验中对Diquat诱导的脂质过氧化和肝损坏具有保护作用,人血浆中的硒蛋白P在体外实验中显示减少内作为一存活促进因子。     

硒蛋白S与2型糖尿病

硒是哺乳动物不可缺少的微量元素,在人体内通过硒蛋白形式发挥多种生物学功能。早期的研究证实硒具有胰岛素样作用,补硒或硒蛋白可预防和治疗2型糖尿病(type 2 diabete mellitus, T2DM)。硒蛋白S (Selenoprotein S, SelS)参与机体内质网相关降解通路、氧化应激、炎症反应,并对血糖、血脂具有调控作用;同时,SelS异常表达于T2DM患者体内,参与胰岛素抵抗,并诱发血管病变。该文综述硒蛋白S基因的表达调控、生物学作用、代谢调节,以及与T2DM相关的研究,为T2DM的治疗提供理论依据。     

硒蛋白P的研究进展

硒蛋白P(SeP)是从大鼠和人血浆中分离、纯化得到的一种糖蛋白 ,每个硒蛋白P多肽含有10个硒代半胱氨酸。硒蛋白P中的硒含量占大鼠和人血浆中硒含量的 5 0 %以上。在其mRNA开放阅读框架中克隆的cDNA的序列含有 10个UGA密码子。硒代半胱氨酸在一个UGA密码子处嵌入蛋白的一级结构 ,尽管对硒蛋白P功能还没有彻底了解 ,它的一种非常可能的作用是作为一种胞外抗氧化剂。大鼠血浆中的硒蛋白P在体内实验中对Diquat诱导的脂质过氧化和肝损坏具有保护作用 ,人血浆中的硒蛋白P在体外实验中显示减少内毒素过氧化硝酸盐和磷脂氢过氧化物的活性。牛血浆中的硒蛋白P在神经细胞的培养中作为一存活促进因子。     

哺乳动物硒蛋白的研究进展

硒是哺乳动物和人必需的微是元素。硒的生物学功能主要是以硒蛋白的形式表现的。到目前为止,已经克隆并测定ｃＤＮＡ顺序的哺乳动物硒蛋白有９种停,它们是细胞内谷胱甘肽过氧化物酶、细胞外谷胱甘肽过氧化物酶、磷脂氢谷胱甘肽过氧化物酶、胃肠谷胱甘肽过氧化物酶、Ｉ型碘化甲状腺原氨酸５′脱碘酶、Ⅱ型碘化甲状腺原氨酸５′脱磺酶、Ⅲ型碘化甲状腺原氨酸５′脱碘酶、硒蛋白Ｐ和硒蛋白Ｗ。这些硒蛋白中硒参入到蛋白分子是通过硒半     

药物相关转运蛋白基因多态性的研究进展

药物相关转运蛋白不但与肿瘤多药耐药现象密切相关,而且在人体内广泛参与药物的吸收、分布、代谢和排泄等过程。其编码基因的单核苷酸多态性(singlenucleotidepolymorphism,SNP)位点变异可能与药物转运蛋白的表达、转运功能密切相关,决定了临床常见的个体/群体药物反应差异性。本文主要介绍了近年来有关药物相关转运蛋白SNP位点基因多态性,以及与临床常见表型相关性的研究。     

甘露糖结合凝集素基因多态性与结核病的相关性研究进展

结核病的发生是结核分枝杆菌与宿主之问相互作用的结果.并受环境因素影响.人们时结核病的研究重点逐渐转移到其宿主的易感基因上来,其中甘露糖结核凝集素(MBL)基因是当今国内外研究的热点之一.MBL通过结合病原生物表面的甘露糖等糖基受体而直接介导调理吞噬作用和/或通过MBL途径激活补体,在机体的固有性免疫防御中发挥重要作用.本文主要介绍MBL基因多态性与结核病易感性的研究进展.     

硒蛋白

硒(Se)已被确认为是一种生物微量元素,它能共价结合到生物大分子、尤其是蛋白质中。硒蛋白是某些细菌、鸟类、哺乳动物(可能也包含植物)的酶系统的基本成份。一、细菌硒蛋白最早被鉴定的细菌硒蛋白是依赖硒的甲酸脱氢酶,该酶催化无氧条件下HCOOH?H_2+CO_2。Pinsent(954)指出,E·Coli甲酸脱氢酶的表达需要硒。Lester和Demoss(1971)则     

HLA基因多态性与结核病遗传易感性的研究进展

随着人类基因组计划的完成和功能基因组学的研究的进展,多种结核病候选易感基因被发现,其中人类白细胞抗原（HLA）基因是主要的候选基因之一。HLA基因作为人类最复杂、最具多态性的遗传系统,其功能涉及到机体免疫的各个方面,不同个体对疾病易感性的差异在很大程度上是由遗传因素所决定的,因此HLA基因与某些免疫性疾病的相关性已经成为近年来研究的热点,国内外学者对不同种族的人群对结核分枝杆菌感染的易感性做了大量的研究,探讨HLA基因多态性与结核病遗传易感性的关系。本文对这方面的研究进展做一综述。     

硒蛋白的分子生物学研究进展

已有35种硒蛋白被分离和表征,但许多硒蛋白及其功能仍未完全阐明.硒半胱氨酸(Sec)作为参入蛋白质的第21种氨基酸,由硒蛋白mRNA上的UGA编码.在原核生物,Sec参入硒蛋白的复杂机制已经较为明确,需要四种基因产物（SELA、SELB、SELC和SELD）和一个存在于硒蛋白mRNA上的被称为Sec插入序列(SECIS)的茎环(stem loop)样二级结构.在真核生物,硒蛋白生物合成途径可能在SECIS的结构和位置、特异的延伸因子及其他RNA-RNA或RNA-蛋白质因子之间的相互作用等方面与原核生物不同.另外,哺乳动物硒蛋白mRNA上的UGA翻译为Sec的过程低效,特定位点的UGA密码子不同功能(终止密码和Sec密码)的调控可能是硒蛋白表达低效的关键.     

Polymorphisms in the selenoprotein S and 15-kDa selenoprotein genes are associated with altered susceptibility to colorectal cancer

Selenium (Se), a dietary trace metal essential for human health, is incorporated into ~25 selenoproteins including selenoprotein S (SelS) and the 15-kDa selenoprotein (Sep15) both of which have functions in the endoplasmic reticulum protein unfolding response. The aim of this study was to investigate whether genetic variants in such selenoprotein genes are associated with altered risk of colorectal cancer (CRC). A Korean population of 827 patients with CRC and 733 healthy controls was genotyped for 7 SNPs in selenoprotein genes and one SNP in the gene encoding manganese superoxide dismutase using Sequenom technology. Multivariate logistic regression analysis showed that after adjustment for lifestyle factors three SNP variants were associated with altered disease risk. There was a mean odds ratio of 2.25 [95% CI 1.13,4.48] in females homozygous TT for rs34713741 in SELS with the T variant being associated with higher risk of rectal cancer, and odds ratios of 2.47 and 2.51, respectively, for rs5845 and rs5859 in SEP15 with the minor A and T alleles being associated with increased risk of male rectal cancer. The data indicate that the minor alleles for rs5845, rs5859 and rs34713741 are associated with increased rectal cancer risk and that the effects of the three SNPs are dependent on gender. The results highlight potential links between Se, the function of two selenoproteins involved in the protein unfolding response and CRC risk. Further studies are required to investigate whether the effects of the variants on CRC risk are also modulated by dietary Se intake.     

Dexamethasone-induced selenoprotein S degradation is required for adipogenesis

Although adipogenesis is associated with induction of endoplasmic reticulum (ER) stress, the role of selenoprotein S (SEPS1), an ER resident selenoprotein known to regulate ER stress and ER-associated protein degradation, is unknown. We found an inverse relationship between SEPS1 level in adipose tissue and adiposity in mice. While SEPS1 expression was increased during adipogenesis, a markedly reduced SEPS1 protein level was found in the early phase of adipogenesis due to dexamethasone (DEX)-induced proteosomal degradation of SEPS1. Overexpression of SEPS1 in the early phase of cell differentiation resulted in impairment of adipogenesis with reduced levels of CCAAT/enhancer binding protein α and other adipocyte marker genes during the course of adipogenesis. Conversely, knockdown of SEPS1 resulted in the promotion of adipogenesis. Additionally, altered SEPS1 expression was associated with changes in expression of ER stress marker genes in the early phase of adipogenesis, and ubiquitin-proteasome system (UPS)-related ubiquitination and proteasome function. Our study reveals that SEPS1 is a novel anti-adipogenic selenoprotein that modulates ER stress- and UPS-dependent adipogenesis. Our results also identifies a novel function of DEX in the regulation of adipogenesis through induction of SEPS1 degradation. Taken together, DEX-dependent degradation of SEPS1 in the early phase of adipogenesis is necessary for initiating ER stress- and UPS-dependent maturation of adipocytes.     

Restriction fragment length polymorphisms of 16S rRNA genes in the differentiation of fast-growing mycobacterial species

Abstract DNA from several species of fast growing mycobacteria displayed a characteristic restriction fragment length polymorphism (RFLP) pattern when hybridizated to a Mycobacterium fortuitum 16S rRNA gene fragment. The resulting patterns were identical when comparing different strains belonging to the same species. The RFLP results were consistent with those obtained by DNA-DNA hybridization studies. Using this approach, we have been able to identify the number of copies for 16S rRNA genes in several fast-growing mycobacteria.     

New sights on the associations between the XRCC1 gene polymorphisms and hepatocellular carcinoma susceptibility

Studies investigating the relationships between the polymorphisms in the X-ray repair cross complementing 1 (XRCC1) gene and the susceptibility of hepatocellular carcinoma (HCC) remained controversial, therefore, we assessed this associations by metaanalysis and trial sequential analysis (TSA). PubMed, Embase, Google Scholar, Chinese National Knowledge Infrastructure and Baidu Scholar were comprehensively screened to retrieve relevant studies up to May 20, 2019. A total of 32 studies was included. Significant associations were discovered in the overall and subgroup analysis in these three polymorphisms. Interestingly, the decreased risk of HCC was detected in the Indians for the rs24587 polymorphism. TSA indicated the required information size for the rs25487 polymorphism were reached, but for the rs25489 and rs1799782 polymorphisms, more well-designed trials were required. Sensitivity analysis implied our results were stable; no publication bias was observed in the rs25487 and rs1799782 polymorphisms. The bioinformatic analysis indicate that the rs1799782 polymorphism is probably damaging and has an influence on the XRCC1 protein function. Our study indicated that the XRCC1 rs25487 was a risk factor for the susceptibility of HCC, which was verified by the TSA. In addition, the rs25489 and rs1799782 polymorphisms were associated with increased risk of HCC. In the subgroup analysis, increased risks were detected in some subgroups (in accordance with Hardy-Weinberg equilibrium, Chinese groups, Mongoloid subgroup, polymerase chain reaction-restriction fragment length polymorphisms and more than 300 subgroups), moreover, decreased HCC risk of the rs25487 polymorphism was firstly observed, which required further studies to verify.     

Absence of selenoprotein P but not selenocysteine lyase results in severe neurological dysfunction

Dietary selenium restriction in mammals causes bodily selenium to be preferentially retained in the brain relative to other organs. Almost all the known selenoproteins are found in brain, where expression is facilitated by selenocysteine (Sec)-laden selenoprotein P. The brain also expresses selenocysteine lyase (Scly), an enzyme that putatively salvages Sec and recycles the selenium for selenoprotein translation. We compared mice with a genetic deletion of Scly to selenoprotein P (Sepp1) knockout mice for similarity of neurological impairments and whether dietary selenium modulates these parameters. We report that Scly knockout mice do not display neurological dysfunction comparable to Sepp1 knockout mice. Feeding a low-selenium diet to Scly knockout mice revealed a mild spatial learning deficit without disrupting motor coordination. Additionally, we report that the neurological phenotype caused by the absence of Sepp1 is exacerbated in male vs. female mice. These findings indicate that Sec recycling via Scly becomes limiting under selenium deficiency and suggest the presence of a complementary mechanism for processing Sec. Our studies illuminate the interaction between Sepp1 and Scly in the distribution and turnover of body and brain selenium and emphasize the consideration of sex differences when studying selenium and selenoproteins in vertebrate biology.     

Functional significance of genetic polymorphisms

Natural genetic polymorphisms are gifts from nature and sources of variations at all levels. The postgenomic era permits new perspectives on interpreting genetic polymorphisms and also poses challenges for scientists to answer system questions. Rather than a comprehensive coverage of genetic polymorphisms upto-date, this review attempts to present some of the results in a somewhat coherent manner to highlight the needs and potentials of pertinent studies.     

Functional significance of genetic polymorphisms

Natural genetic polymorphisms are gifts from nature and sources of variations at all levels. The postgenomic era permits new perspectives on interpreting genetic polymorphisms and also poses challenges for scientists to answer system questions. Rather than a comprehensive coverage of genetic polymorphisms up-to-date, this review attempts to present some of the results in a somewhat coherent manner to highlight the needs and potentials of pertinent studies.