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1.
水生无脊椎动物金属硫蛋白研究进展   总被引:1,自引:0,他引:1  
金属硫蛋白在水生无脊椎动物中分布广泛、容易被诱导,在水环境生态响应研究中具有重要意义。对水生无脊椎动物金属硫蛋白分类和特性、MT的诱导及影响因素、基因克隆与表达等方面取得的进展进行概述;并对其金属离子调节功能及其在水环境重金属污染监测、重金属污染生物治理和水产养殖等方面的应用潜力进行展望,提出研究中的不足和今后的研究方向。  相似文献   

2.
动物生物标志物在土壤污染生态学研究中的应用   总被引:15,自引:3,他引:12  
应用陆栖无脊椎动物的生物标志物对土壤生态系统中污染物的暴露和效应进行评价日益受到重视,并取得了显著的研究进展,文中介绍了溶酶体、胁迫蛋白和金属硫蛋白(MTs)3种主要生物标志物,体腔细胞内溶酶体膜稳定性用中性红保持时间(NRR)进行检测;胁迫蛋白类多采其中的Hsp70和Hsp60;金属硫蛋白不同同分异构体的定量分析可用于反映不同的金属污染胁迫,对3种生物标志物机理、特性、检测实例以及在污染土壤生态毒理诊断中的应用前景进行了评述。  相似文献   

3.
金属硫蛋白(metallothionein,MT)是一类富含半胱氨酸的低分子质量蛋白质,已鉴定4种亚型:MT-1、MT-2、MT-3和MT-4,基于各亚型功能的相对异质性而使MT呈现其生物学作用的多样性。金属硫蛋白通过与金属离子结合而参与基因表达调控和机体的重金属解毒过程;金属硫蛋白通过抑制多种氧化应激途径而保护细胞免受损伤;金属硫蛋白通过参与细胞的增殖、分化和凋亡的调节而影响肿瘤及其他重大疾病的发生发展。本文在金属硫蛋白的结构和分类的基础上综述其生物学作用及其相关机制。  相似文献   

4.
植物金属硫蛋白及其重金属解毒机制研究进展   总被引:23,自引:0,他引:23  
全先庆  张洪涛  单雷  毕玉平 《遗传》2006,28(3):375-382
金属硫蛋白是一类分子量较小、富含Cys的金属结合蛋白,广泛分布于生物界。近年来从植物中克隆到许多编码金属硫蛋白的基因,并在研究基因表达模式、组织表达特异性以及基因结构,如启动子、内含子在染色体上的定位等方面取得了一定进展,但对其功能的研究还处于起步阶段。很多实验表明,植物金属硫蛋白可以通过其大量的Cys残基螯合重金属并清除活性氧,使植物避免氧化损伤。文章介绍了植物金属硫蛋白的分类、特征、基因结构及其在植物重金属解毒中的作用。   相似文献   

5.
高等植物重金属耐性与超积累特性及其分子机理研究   总被引:50,自引:0,他引:50       下载免费PDF全文
 由于重金属污染日益严重,重金属在土壤-植物系统中的行为引起了人们的高度重视。高等植物对重金属的耐性与积累性,已经成为污染生态学研究的热点。近年来,由于分子生态学等学科的发展,有关植物对重金属的解毒和耐性机理、重金属离子富集机制的研究取得了较大进展。高等植物对重金属的耐性和积累在种间和基因型之间存在很大差异。根系是重金属等土壤污染物进入植物的门户。根系分泌物改变重金属的生物有效性和毒性,并在植物吸收重金属的过程中发挥重要作用。土壤中的大部分重金属离子都是通过金属转运蛋白进入根细胞,并在植物体内进一步转运至液泡贮存。在重金属胁迫条件下植物螯合肽(PC)的合成是植物对胁迫的一种适应性反应。耐性基因型合成较多的PC,谷胱甘肽(GSH)是合成PC的前体,重金属与PC螯合并转移至液泡中贮存,从而达到解毒效果。金属硫蛋白(MTs)与PC一样,可以与重金属离子螯合,从而降低重金属离子的毒性。该文从分子水平上论述了根系分泌物、金属转运蛋白、MTs、PC、GSH在重金属耐性及超积累性中的作用,评述了近10年来这方面的研究进展,并在此基础上提出存在的问题和今后研究的重点。  相似文献   

6.
牛长缨  雷朝亮  胡萃 《昆虫知识》2000,37(4):244-247
金属结合蛋白是一类能够特异性结合重金属、具有保持体内微量元素平衡及金属解毒功能的蛋白质。金属结合蛋白广泛存在于各种生物体内 ,并行使多种生理功能。至今 ,对于昆虫金属结合蛋白及其在机体中的功能等仍了解不多 (见表 1 ) ,而且在某些昆虫种类中 ,这种金属结合蛋白被认为是一种金属硫蛋白或其类似的蛋白质 [2~ 9] ;在另外一些昆虫种类中却被认为是一种糖蛋白 [1,4 ]。为此 ,本文对有关昆虫金属结合蛋白的研究进行整理 ,综述如下。收稿日期 :1998- 10 - 10表 1 昆虫金属结合蛋白的研究昆虫种类材料结论参考文献石蝇 Pteronarcys ca…  相似文献   

7.
硫对土壤重金属形态转化及植物有效性的影响研究进展   总被引:2,自引:1,他引:1  
生源要素硫在土壤中的化学循环不仅会直接影响土壤重金属元素的环境行为,也可通过调控植物根际微环境间接影响植物对重金属元素的吸收累积.土壤中的硫被植物根吸收后在植株中合成的有机硫化合物如植物螯合素(PCs)和金属硫蛋白(MTs)可与重金属形成毒性较低的络合物,构成植物重金属解毒的重要机制之一.我国部分土壤缺硫现象严重,为保证作物高质高产,硫肥的使用逐渐被重视,而硫与重金属的交互作用机制也逐渐成为研究热点.本文综合相关研究,介绍了硫在土壤中的生物化学转化,探讨了土壤硫的化学转化对土壤重金属形态转化及植物有效性的影响,并对今后硫在土壤重金属控制的应用提出展望.
  相似文献   

8.
神经生长抑制因子研究进展   总被引:3,自引:0,他引:3  
神经生长抑制因子(neuronal growth inhibitory factor, GIF) 又名金属硫蛋白-Ⅲ (metallothionein-Ⅲ,MT-Ⅲ),特异分布于中枢神经系统(CNS),是神经系统中第一个被鉴定的具有神经元生长抑制功能的蛋白. GIF一级序列、高级结构、金属结合特性类似于其他MTs,基因结构也与其他MTs高度同源,但表达调控途径相异. GIF可能以其β结构域的CPCP区,与脑组织提取物中的相关因子结合,进而表现其生物学功能. 有研究认为GIF与阿尔茨海默等脑相关疾病均有密切关系.  相似文献   

9.
异常汉逊酵母BD102金属硫蛋白的分离纯化和鉴定   总被引:4,自引:0,他引:4  
从异常汉逊酵母中分离出拮抗Cu2+、Cd2+等重金属、并经铜、镉诱导产生金属硫蛋白的异常汉逊酵母 (Hansenulaanomala)BD1 0 2。无细胞抽提液经SephadexG 50、DEAESepharoseCL 6B、SephadexG 2 5三次凝胶及阴离子交换柱层析分离纯化 ,Cu2+诱导得到Cu MTs两个亚型 ,Cd2+诱导得到Cd MT一个亚型。Mr分别约为 7kD和 7 5kD ,由 60和 61个氨基酸组成 ,其中半胱氨酸含量各为 6.8%和 1.0 %。每分子金属硫蛋白 (Cu MTs或Cd MT)可结合 4个铜或镉原子  相似文献   

10.
目的:观察不同锌水平对体外应激海马神经元金属硫蛋白(MTs)亚型表达的影响。方法:取新生1dWis-tar大鼠海马组织进行体外神经元培养,无血清培养24h后,分别向培养液中加入皮质酮、Zn2+特异鳌合剂TPEN,使二者的最终浓度均为1×10-5mol/L,然后加入不同浓度的ZnSO4溶液,使Zn2+的最终浓度分别为1×10-5mol/L、1×10-4mol/L和2×10-4mol/L,作用24h后检测培养液中IL-6和NO含量,以蛋白印迹法检测细胞MTs含量,以RT-PCR检测细胞MT-1mRNA和MT-3mRNA的表达水平。结果:在海马神经元培养液中加入TPEN后,MTs的表达出现明显降低,皮质酮刺激也未见其表达升高。在补锌组,MTs的含量均明显增加,其中以10-4mol/LZn2+组的表达量最高。海马神经元MT-1mRNA和MT-3mRNA的表达水平在皮质酮应激组和补锌组均出现明显升高。另外,锌缺乏和皮质酮刺激可使海马神经元培养上清中的IL-6和NO水平均出现明显升高。结论:不同锌水平对应激海马神经元金属硫蛋白及其亚型mRNA的表达具有调控作用,缺锌可降低金属硫蛋白的表达,而补锌可增加金属硫蛋白的表达。  相似文献   

11.
During the last few years the subject of metallothioneins (MTs) in terrestrial invertebrates has gained increasing attention. One reason for this may be that terrestrial invertebrates provide new insights into the biological diversity of MTs, with the potential of discovering alternative models of structural and functional relationships. Four groups of terrestrial invertebrates have been studied in detail, namely nematodes, insects, snails and earthworms, with the present article focusing on MTs from the latter two groups. Snails are interesting because they possess distinct MT isoforms involved in different metal-specific tasks. In the Roman snail (Helix pomatia), for example, one isoform is predominantly expressed in the midgut gland, accounting for the accumulation, binding and detoxification of cadmium. The second isoform, which is present in the snail's mantle, is substantially different regarding its primary structure. Furthermore, it binds nearly exclusively copper, and thus is probably involved in the homeostatic regulation of essential trace elements. Earthworm MTs merit our attention because of another peculiarity: they seem to be much more unstable than snail MTs, particularly under conventional conditions of preparation. The cDNA of the brandling worm (Eisenia foetida), for instance, codes for a putative MT, which is about twice the size of the actual protein. The isolated MT peptide binds four Cd2+ ions and represents a one-domain MT entity that is stable and functional in vitro. This strongly suggests that earthworm MTs are either posttranslationally modified, or subjected to enzymatic cleavage during preparation. Both snail and earthworm MTs are inducible by metal exposure, especially by cadmium, thus supporting the idea of using them as potential biomarkers for environmental metal pollution. Whilst snail MTs have already been tested in this respect with some success, the use of earthworm MTs as biomarkers still remains to be evaluated, especially in the light of the unknown significance of their posttranslational instability.  相似文献   

12.
Metallothioneins (MTs) are crucial proteins in all organisms for the regulation of essential metals and the detoxification of heavy metals. Many studies have estimated MT levels in mussel tissues to detect marine metal pollution. In this study, we investigated the MT gene structures of the forms present in Mytilus edulis (blue mussel). One MT-10 (2413 bp) gene and one MT-20 (1906 bp) gene were obtained. These MT genes contain three exons and two long introns. The splicing signals for MT-10 and MT-20 were GTA(T/A)GT-(C/T)AG. The structural organization (length of intron, splicing signals, AT content) of MT-10 and MT-20 is compared with other MT genes.  相似文献   

13.
金属结合蛋白基因及其在清除重金属污染中的应用   总被引:5,自引:0,他引:5  
焦芳婵  毛雪  李润植 《遗传》2002,24(1):82-86
一些微生物和植物由于对毒性金属具有独特的抗性机制,使得利用它们来清除日益严重的环境污染已发展成为一种十分有效的技术——生物修复。研究表明,不同的金属结合蛋白(如MT 和PC),在生物忍耐和降解过量重金属毒性机制中起重要作用。愈来愈多的MT 和PC基因被克隆,并已成功地应用于生物遗传转化,这些转基因生物在清除重金属污染方面已显示出潜在的应用价值。 Abstract:Heavy metal pollution has become a global environmental hazard.The use of microorganisms and plants for the decontamination of heavy metals is recognized as a low lost and high efficiency method for cleaning up metal contamination.It shows that various metal-binding proteins such as metallothioneins (MTs) or phytochelatines (PCs) play an important role in defense systems and detoxification to heavy metals in organisms.Many genes of MTs and PCs have been cloned and utilized successfully in genetically modified bacteria and plants for increasing remediation capacity.These transgenic organisms have been displayed a great potential in bioremediation and phytoremediation of heavy metals.  相似文献   

14.
15.
In Appreciation     
Marine animals can induce metallothioneins (MTs) in their responses to exposure to certain trace metals in the environment. MTs generally function as metal storage/detoxification or homeostatic regulation of both essential and non-essential metals. This review discusses the important roles of MTs in metal biokinetics other than metal detoxification and homeostasis in marine animals. Recent studies have revealed the complicated cellular and biochemical processes involving intracellular ligands (cytosolic proteins and insoluble deposits) during metal uptake and elimination. The responses of metal biokinetics to MT induction are metal- and organism-specific. Depending on the different marine animals and metals, all biokinetic parameters such as dissolved metal uptake rate, dietary assimilation efficiency and elimination (efflux) rate can be significantly impacted by MT induction. Among the different metal biokinetic parameters, dietary assimilation efficiency and elimination rate appear to be most impacted by MT induction. MT turnover kinetics can also significantly affect metal uptake kinetics, but again, such influence is also dependent on the organism, particularly its predominant pathway of metal detoxification. Even though the total MT pool in aquatic animals may remain constant, the turnover of MTs, involving MT synthesis and breakdown, can potentially lead to a major change of metal accumulation biokinetics. We propose several issues that need to be further addressed in studying the interaction between MT induction and metal accumulation biokinetics.  相似文献   

16.
Erratum     
The biochemical features of metallothioneins and their functional role in the cell are described. On this basis, the potential role of MTs as a biomarker of exposure in aquatic organisms, such as fishes and molluscs, is evaluated in the light of recent knowledge about MT gene regulation and inducibility. It appears that in fish MTs should be considered as a kind of stress protein which is particularly responsive to heavy metals. In molluscs, in particular in mussels, MTs seem more specifically involved in responses to heavy metals and they should therefore be considered a biomarker of exposure to heavy metal pollution. Common techniques for MT evaluation are listed and a simple spectrophotometric method recently developed is also reported. Finally, the correct approach to the use of MTs as a biomarker of exposure in biomonitoring programmes for an assessment of the physiological status of aquatic organisms is discussed.  相似文献   

17.
Metallothionein as a tool in biomonitoring programmes   总被引:4,自引:0,他引:4  
The biochemical features of metallothioneins and their functional role in the cell are described. On this basis, the potential role of MTs as a biomarker of exposure in aquatic organisms, such as fishes and molluscs, is evaluated in the light of recent knowledge about MT gene regulation and inducibility. It appears that in fish MTs should be considered as a kind of stress protein which is particularly responsive to heavy metals. In molluscs, in particular in mussels, MTs seem more specifically involved in responses to heavy metals and they should therefore be considered a biomarker of exposure to heavy metal pollution. Common techniques for MT evaluation are listed and a simple spectrophotometric method recently developed is also reported. Finally, the correct approach to the use of MTs as a biomarker of exposure in biomonitoring programmes for an assessment of the physiological status of aquatic organisms is discussed.  相似文献   

18.
MTs are small cysteine-rich metal-binding proteins found in many species and, although there are differences between them, it is of note that they have a great deal of sequence and structural homology. Mammalian MTs are 61 or 62 amino acid polypeptides containing 20 conserved cysteine residues that underpin the binding of metals. The existence of MT across species is indicative of its biological demand, while the conservation of cysteines indicates that these are undoubtedly central to the function of this protein. Four MT isoforms have been found so far, MT-1, MT-2, MT-3, and MT-4, but these also have subtypes with 17 MT genes identified in man, of which 10 are known to be functional. Different cells express different MT isoforms with varying levels of expression perhaps as a result of the different function of each isoform. Even different metals induce and bind to MTs to different extents. Over 40 years of research into MT have yielded much information on this protein, but have failed to assign to it a definitive biological role. The fact that multiple MT isoforms exist, and the great variety of substances and agents that act as inducers, further complicates the search for the biological role of MTs. This article reviews the current knowledge on the biochemistry, induction, regulation, and degradation of this protein in mammals, with a particular emphasis on human MTs. It also considers the possible biological roles of this protein, which include participation in cell proliferation and apoptosis, homeostasis of essential metals, cellular free radical scavenging, and metal detoxification.  相似文献   

19.
MTs are small cysteine-rich metal-binding proteins found in many species and, although there are differences between them, it is of note that they have a great deal of sequence and structural homology. Mammalian MTs are 61 or 62 amino acid polypep-tides containing 20 conserved cysteine residues that underpin the binding of metals. The existence of MT across species is indicative of its biological demand, while the conservation of cysteines indicates that these are undoubtedly central to the function of this protein. Four MT isoforms have been found so far, MT-1, MT-2, MT-3, and MT-4, but these also have subtypes with 17 MT genes identified in man, of which 10 are known to be functional. Different cells express different MT isoforms with varying levels of expression perhaps as a result of the different function of each isoform. Even different metals induce and bind to MTs to different extents. Over 40 years of research into MT have yielded much information on this protein, but have failed to assign to it a definitive biological role. The fact that multiple MT isoforms exist, and the great variety of substances and agents that act as inducers, further complicates the search for the biological role of MTs. This article reviews the current knowledge on the biochemistry, induction, regulation, and degradation of this protein in mammals, with a particular emphasis on human MTs. It also considers the possible biological roles of this protein, which include participation in cell proliferation and apoptosis, homeostasis of essential metals, cellular free radical scavenging, and metal detoxification.  相似文献   

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