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1.
硒是生命必需的微量元素,以硒代半胱氨酸(Sec,第21位氨基酸)和硒代甲硫氨酸(Se-Met)的形式加入到硒蛋白(酶)中。人畜硒摄入过量或不足均会导致很多疾病。微生物参与了Se(-Ⅱ)、Se(0)、Se(Ⅳ)和Se(Ⅵ)等各种价态间的转化。本文主要综述微生物对硒的还原及其生物学意义。微生物对硒的还原包括同化还原、异化还原以及在还原基础上进行的硒的甲基化。硒的同化还原主要是形成各种硒蛋白,满足微生物自身对硒的需求,食源性微生物对人畜补硒具有重要意义。高浓度硒酸盐和亚硒酸盐则可促使微生物进行异化还原并形成单质纳米硒颗粒。有的微生物会将还原态的Sec和Se-Met进一步转化为挥发态的甲基化硒。硒的异化还原和甲基化都是解毒机制,在硒污染环境的治理中具有重要意义。最后,阐述了单质纳米硒在医药、生物传感器和治理重金属污染等方面的应用前景,以及微生物合成CdSe荧光量子点的应用。  相似文献   

2.
细菌还原氧化态硒产生红色单质硒的研究进展   总被引:3,自引:0,他引:3  
硒是一种生命必需的微量元素,但高浓度时毒性较强且会造成环境污染。许多细菌可以将亚硒酸盐(SeO32-)或硒酸盐(SeO42-)等毒性较高的氧化态硒还原为毒性较小的红色单质硒(Se°),形成硒-蛋白复合物,它们对于获得最佳补硒方式和治理硒环境污染具有应用潜力。近年来,关于这一生物还原过程,人们进行了大量的研究,包括碳源、氧气、元素硫、谷胱甘肽以及一些氧化还原酶和膜转运蛋白等在内的多种物质都被发现可能影响或参与了细菌对硒的代谢。综述了细菌进行生物还原氧化态硒的影响因素及不同细菌产生红色单质硒机理的研究进展。  相似文献   

3.
环境中硒的生物地球化学循环和营养调控及分异成因   总被引:32,自引:0,他引:32  
赵少华  宇万太  张璐  沈善敏  马强 《生态学杂志》2005,24(10):1197-1203
硒是环境中重要的生命元素,它在环境中含量水平的高低直接影响着人及动植物的健康安全。结合国内外资料及最新的研究进展,阐述了环境中硒的生物地球球化学循环,包括环境中硒的生物地球化学循环特征,土壤中硒的含量分布、形态及有效性,大气和水环境中硒的形态分布,植物体中的硒及其对硒的吸收关系;讨论了低硒高硒环境中硒营养水平的调节及环境分异的成因,诸如母质类型、气候特征、风化淋失、气体挥发、土壤质地和地力耗竭等方面;并提出了环境中硒研究的前沿及今后关注的热点问题,以促进今后环境中硒的研究。  相似文献   

4.
生物方法合成纳米材料具有低能耗、高安全性以及环境友好等优良特点,因而备受人们关注。利用细菌将硒酸盐或亚硒酸盐还原为单质硒,不仅可以降低硒毒性,而且还能获得价值更高的生物纳米材料。文中选用可耐受高盐环境胁迫的枯草芽孢杆菌亚种Bacillus subtilis subspecies stercoris strain XP构建生物模型,分别以LB液体培养基和亚硒酸钠为介质和底物 (电子受体),解析菌株XP合成纳米硒的基本规律。通过扫描电镜 (Scanning electron microscope,SEM) 观察、X射线能谱分析 (X-ray energy dispersive spectral analysis,EDAX)、X射线衍射 (X-ray diffraction,XRD) 分析、傅里叶红外变换光谱 (Fourier transform infrared spectroscopy,FTIR) 技术对合成的纳米硒进行物理化学表征分析,同时选用草莓枯萎、红叶、紫斑病病原真菌对其抗菌活性进行分析。结果表明,菌株XP介导合成的单质硒为球形纳米颗粒 (Selenium nanoparticles,SeNPs),其生成量与反应时间呈正相关 (0–48 h),且细胞形态未发生褶皱或破损等变化 (耐受力强);SeNPs为非晶态,粒径范围在135–165 nm,表面元素组成以Se为主,同时存在C、O、N、S等有机元素;颗粒表面包裹生物大分子物质,-OH、C=O、N-H、C-H等官能团与SeNPs稳定性和生物活性密切相关;高浓度纳米硒对枯萎、红叶、紫斑病病原真菌均有显著抑制活性 (P<0.05),其中对草莓红叶病与枯萎病病原真菌的抑制活性明显优于对紫斑病病原真菌的抑制活性。总而言之,菌株XP不仅耐受高盐胁迫能力强,同时还可介导合成生物SeNPs,其合成的纳米硒颗粒具有良好的稳定性和生物活性,在草莓病害防治以及绿色富硒草莓种植等领域具有潜在的应用价值。  相似文献   

5.
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  相似文献   

6.
细胞毒性研究认为Cd2+的释放是硒化镉(CdSe)纳米粒子的细胞毒性机制之一,而Se2-阴离子在纳米粒子中的毒性机制未知。作者研究了硒代硫酸钠(selenosulfate(SSeO3)2-)对HL60细胞的细胞毒性作用,发现10μmol/L的硒代硫酸钠可以显著抑制细胞活力,诱导细胞凋亡,出现了染色质凝聚、DNA ladder和G0/G1凋亡亚峰。线粒体膜电位显著降低的同时,促凋亡蛋白Bax的免疫荧光增加。结果表明还原态的Se2-阴离子有显著的细胞毒性作用,可以诱导HL60细胞凋亡。同时也暗示Se2-阴离子的释放可能是含Se2-纳米粒子(比如硒化镉的量子点)细胞毒性的机制之一。  相似文献   

7.
湖泊硫循环微生物研究进展   总被引:6,自引:0,他引:6  
陈俊松  杨渐  蒋宏忱 《微生物学报》2020,60(6):1177-1191
湖泊是响应气候和环境变化的关键生态系统,是研究元素(如碳、氮和硫等)生物地球化学循环的热点环境。湖泊(尤其咸盐湖)具有硫酸盐含量高且含硫化合物种类丰富的特点,因而湖泊中硫元素生物地球化学循环过程非常活跃。微生物是驱动湖泊硫循环的重要推手。因此,研究湖泊中微生物参与的硫元素生物地球化学循环过程以及相关微生物类群构成,对于深入探索微生物在湖泊生态系统中的作用具有重要意义。本文综述了湖泊中驱动硫循环的微生物(硫氧化菌和硫酸盐还原菌)种群多样性、功能基因、代谢途径、硫氧化/硫酸盐还原速率及其对环境条件变化响应等方面的研究现状,并对未来湖泊微生物驱动的硫循环研究方向进行了展望。  相似文献   

8.
生物地球化学锰循环中的微生物胞外电子传递机制   总被引:1,自引:0,他引:1  
微生物是生物地球化学元素循环的重要驱动者,在锰等变价金属元素的氧化还原过程中起着至关重要的作用。近年来,Mn(Ⅲ)的发现以及在一些环境中的广泛存在,丰富了人们对Mn(Ⅲ)以及自然界锰循环过程的认识。研究发现,锰的生物地球化学循环,尤其是锰还原过程,与微生物胞外电子传递紧密相关,且目前已知的5种胞外电子传递机制均与锰还原有关联。因此,本文综述了锰的生物地球化学循环及其意义,并从微生物胞外电子传递的机制、微生物介导锰氧化、微生物介导锰还原等3个方面来介绍参与锰循环的微生物多样性;以及微生物地球化学锰循环的环境意义。对微生物参与锰循环过程的研究不仅可以进一步丰富相关理论,同时也能推动生物除锰、污染物原位修复及生物冶金等应用领域的发展。  相似文献   

9.
微生物氧化As(III)和Sb(III)的研究进展   总被引:3,自引:0,他引:3  
砷(Arsenic,As)和锑(Antimony,Sb)属于同族元素,具有相似的化学性质,是公认的有毒类金属(metalloid),广泛存在于自然界中。随着人类的发展,环境中砷和锑的污染日益严重,类金属污染环境的修复已经刻不容缓。现已表明,自然界中的微生物在砷和锑的生物地球化学循环中发挥着重要的作用,尤其是微生物的氧化作用,可以将毒性较强的亚砷酸盐[Arsenite,As(III)]和亚锑酸盐[Antimonite,Sb(III)]氧化为毒性较低的砷酸盐[Arsenate,As(V)]和锑酸盐[Antimonate,Sb(V)],被认为是一种潜在的类金属污染环境修复方法。本文就国内外对As(III)氧化菌和Sb(III)氧化菌的多样性、As(III)和Sb(III)微生物氧化调控机制和应用的研究进展进行总结,旨在为深入了解和探索微生物介导的砷和锑生物地球化学循环及污染环境的微生物修复提供参考。  相似文献   

10.
砷(Arsenic,As)和锑(Antimony,Sb)属于同族元素,具有相似的化学性质,是公认的有毒类金属(Metalloid),广泛存在于自然界中。随着人类的发展,环境中砷和锑的污染日益严重,类金属污染环境的修复已经刻不容缓。现已表明,自然界中的微生物在砷和锑的生物地球化学循环中发挥着重要的作用,尤其是微生物的氧化作用,可以将毒性较强的亚砷酸盐[Arsenite,As(Ⅲ)]和亚锑酸盐[Antimonite,Sb(Ⅲ)]氧化为毒性较低的砷酸盐[Arsenate,As(V)]和锑酸盐[Antimonate,Sb(V)],被认为是一种潜在的类金属污染环境修复方法。本文就国内外对As(Ⅲ)氧化菌和Sb(Ⅲ)氧化菌的多样性、As(Ⅲ)和Sb(Ⅲ)微生物氧化调控机制和应用的研究进展进行总结,旨在为深入了解和探索微生物介导的砷和锑生物地球化学循环及污染环境的微生物修复提供参考。  相似文献   

11.
富硒生物样品中硒的价态和形态分析   总被引:9,自引:0,他引:9  
本文利用2,3—二氨基萘(DAN)荧光法测定了富硒玉米粉、硒酵母蛋白等样品中四价硒、六价硒、有机硒含量及总硒量。进一步验证了差减法测定不同价态硒含量的实验方法  相似文献   

12.
还原亚硒酸盐产生红色单质硒光合细菌菌株的筛选与鉴定   总被引:4,自引:0,他引:4  
从实验室保藏的光合细菌中筛选出一株对亚硒酸钠还原效率较高的菌株S3,其亚硒酸钠还原产物通过透射电子显微镜及EDX(Electron-Dispersive X-ray)分析确定为红色单质硒。菌株S3的形态学特征、生理生化特征及光合色素扫描结果与固氮红细菌(Rhodobacter azotoformans)的特征基本一致;16S rDNA序列(GenBank登录号为DQ402051)在系统发育树中与固氮红细菌同属一个类群,序列同源性为99%。根据上述结果将菌株S3鉴定为固氮红细菌。初步研究了该菌株还原亚硒酸钠的特性,首次报道固氮红细菌具有还原亚硒酸盐产生红色单质硒的能力,为今后利用微生物方法治理环境中硒污染、利用微生物方法获得活性红色单质硒以及对微生物还原亚硒酸盐产生红色单质硒的机理研究奠定了良好的基础。  相似文献   

13.
人体硒代谢与硒营养研究进展   总被引:1,自引:0,他引:1  
硒是人体所必需的重要微量营养元素,综述了当前国内外人体硒代谢与硒营养的研究进展,包括硒源形式与吸收、人体的硒含量与分布、硒的代谢途径、硒的生物活化形式、硒与疾病、硒中毒和硒的安全摄入量。在此基础上,提出了针对我国硒资源分布、硒反应症分布和居民膳食结构硒摄入量的研究建议,为满足居民通过膳食和补充剂补硒预防和治疗疾病提供理论和实践指导。  相似文献   

14.
Selenium is an important and essential trace element to living systems. In the article, two methods of instrumental neutron activation analysis and hydride generation-atomic fluorescence spectrometry were applied to determine Se in biological samples and the accuracy was evaluated by several reference materials. The subcellular distribution of selenium in human liver samples, which were obtained from normal subjects who had an accidental death, was investigated by differential centrifugation combined with INAA. Selenium was mainly enriched in mitochondria, nuclei, and cytosol. Almost half of the total Se content existed in nuclei as a result of the large amount in liver and the high Se concentration. Generally, the highest Se concentration in the mitochondrial fractions of each liver sample suggested that Se had important functions in this liver component.  相似文献   

15.
硒是人体必需的一种微量元素,参与合成硒代半胱氨酸、硒代甲硫氨酸以及多种硒代蛋白(酶),具有抗肿瘤、抗氧化、增强人体免疫等多种生物学活性,与人体的健康有着密切关系.硒以不同的形式存在于自然界中,大致可分为无机硒和有机硒两种,其生物活性与毒性也各有不同.富硒酵母作为补充硒元素的主要形式之一,具有生物利用度高、食用安全、毒性低等优点.研究富硒酵母中的硒的赋态,对合理摄取硒元素,促进人体健康具有重要意义,因此成为近年来研究的热点.  相似文献   

16.
Concentrated extracts of MRS (De Man-Rogosa-Sharpe) media in which probiotic bacterium Enterococcus faecium strain M-74 was grown exerted different antimutagenic activity against ofloxacin-, N-methyl, N'-nitro-N-nitrosoguanidine- and sodium 5-nitro-2-furylacrylate-induced mutagenicity in Salmonella typhimurium assay depending on the presence (+Se) or absence of disodium selenite pentahydrate (-Se). The antimutagenicity of MRS(+Se) extract was higher than that of MRS(-Se) extract. Selenium enhanced also the antimutagenic effect of both live and killed cells of E. faecium M-74, respectively. The live bacteria decreased the mutagenicity of selected substances more than killed cells. Synergic activity of selenium with the bacterium was also manifested.  相似文献   

17.
Selenium (Se), a trace element, has evolved from its toxic properties to an essential element. Se was known a potent antioxidant through glutathione peroxidase (selenium being part of this molecule). Later, many other selenium-binding proteins were discovered and their functions were tried to be known with unsuccessful results in many cases. Se is known to be involved in carcinogenesis, immune function, male reproduction, cardiovascular diseases etc. The specific mechanism of the involvement of the element is still not known. Recent research with application of modern research tools viz. bioinformatics, cDNA microarray and transgenesis have revealed the mechanism of selenium involvement in various processes. This review highlights mysterious and useful roles of selenium in biological processes.  相似文献   

18.
Selenium has been increasingly recognized as an important element in biological systems, which participates in numerous biochemical processes in organisms, notably in enzyme reactions. Selenium can substitute sulfur of cysteine and methionine to form their selenium analogues, selenocysteine (Sec) and selenomethionine (SeM). The nature of amino acid pockets in proteins is dependent on their composition and thus different non-covalent forces determine the interactions between selenium of Sec or SeM and other functional groups, resulting in specific biophysical behavior. The discrimination of selenium toward sulfur has been reported. In order to elucidate the difference between the nature of S-π and Se-π interactions, we performed extensive DFT calculations of dispersive and electrostatic contributions of Se-π interactions in substituted benzenes/hydrogen selenide (H2Se) complexes. The results are compared with our earlier reported S-π calculations, as well as with available experimental data. Our results show a larger contribution of dispersive interactions in Se-π systems than in S-π ones, which mainly originate from the attraction between Se and substituent groups. We found that selenium exhibits a strong interaction with aromatic systems and may thus play a significant role in stabilizing protein folds and protein–inhibitor complexes. Our findings can also provide molecular insights for understanding enzymatic specificity discrimination between single selenium versus a sulfur atom, notwithstanding their very similar chemical properties.  相似文献   

19.
BackgroundSelenium is a trace element traditionally ingested either in its organic form via food or in its inorganic form through nutritional supplements, while selenium formulated as nanoparticles is a putative long-acting alternative. To understand the physiology and toxicology of the different selenium formulations, it is important to determine how their selenium content is absorbed, distributed, metabolised and excreted; therefore, we reviewed their biokinetics following oral exposure.MethodsWe retrieved and reviewed the literature on the absorption, distribution, metabolism, and excretion of oral exposure to different forms of selenium.ResultsSelenium in both the organic form (containing carbon to selenium chemical bonds) and the inorganic form is absorbed into the blood in humans. The mean normal blood level of many studies was 139 μg/L. There are indications that selenium from organic sources is more bioavailable than selenium from inorganic sources. Selenium is distributed throughout the body, including in breast milk. The elimination of selenium mainly involves the faecal and urinary pathways, whereas breath, saliva and hair are minor contributors. Urinary metabolites include trimethylselenium ions, selenosugars and Se-methylselenoneine.ConclusionSelenium is absorbed to a high extent, and selenium from organic sources is more bioavailable than from inorganic sources. Selenium, as expected as an essential trace element, is distributed throughout the body. Selenium is extensively metabolised, and various excretion metabolites have been identified in both urine and breath, while some selenium is also excreted via faeces.  相似文献   

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