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151.
蚯蚓作用下污泥重金属形态变化及其与化学生物学性质变化的关系 总被引:1,自引:0,他引:1
城市污泥处理是一项世界性难题,污泥农业利用是其最简单有效的资源化利用方式之一,但污泥中较高的重金属含量限制了其实际推广应用,利用蚯蚓-超富集植物联合修复污泥重金属的方法已引起国内外研究者的关注。以新鲜城市脱水污泥为研究对象,接种赤子爱胜蚓(Eisenia fetida)进行室内培养试验,系统研究蚯蚓作用下污泥重金属形态的变化,及其与污泥氧化还原条件、化学和微生物性质变化的关系,以期为蚯蚓-超富集植物联合修复技术在污泥重金属处理中的应用提供理论依据。结果表明,试验前期蚯蚓在污泥中能正常生长和存活,前20 d总生物量增加了52%。蚯蚓可以显著促进污泥中的Cu、Zn、Cd、Ni等重金属从残渣态和铁锰态等稳定形态向交换态和水溶态等有效形态转化。还可以显著降低污泥中还原性物质的含量,减缓p H值下降速度,降低总有机碳含量,促进铵态氮向硝态氮转化,减少污泥微生物的数量并增加其种群活性。蚯蚓作用下,污泥中重金属的活化程度与还原性物质的含量呈显著负相关,而与微生物种群的活性呈显著正相关(P0.05)。综上所述,蚯蚓可以促进污泥重金属的活化,并改善污泥的肥力条件,为修复植物在污泥中的正常生长和对重金属离子的快速吸收提供有利条件。 相似文献
152.
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154.
The structure of the Caenorhabditis elegans manganese superoxide dismutase MnSOD‐3‐azide complex 下载免费PDF全文
Gary J. Hunter Chi H. Trinh Rosalin Bonetta Emma E. Stewart Diane E. Cabelli Therese Hunter 《Protein science : a publication of the Protein Society》2015,24(11):1777-1788
C. elegans MnSOD‐3 has been implicated in the longevity pathway and its mechanism of catalysis is relevant to the aging process and carcinogenesis. The structures of MnSOD‐3 provide unique crystallographic evidence of a dynamic region of the tetrameric interface (residues 41–54). We have determined the structure of the MnSOD‐3‐azide complex to 1.77‐Å resolution. Analysis of this complex shows that the substrate analog, azide, binds end‐on to the manganese center as a sixth ligand and that it ligates directly to a third and new solvent molecule also positioned within interacting distance to the His30 and Tyr34 residues of the substrate access funnel. This is the first structure of a eukaryotic MnSOD‐azide complex that demonstrates the extended, uninterrupted hydrogen‐bonded network that forms a proton relay incorporating three outer sphere solvent molecules, the substrate analog, the gateway residues, Gln142, and the solvent ligand. This configuration supports the formation and release of the hydrogen peroxide product in agreement with the 5‐6‐5 catalytic mechanism for MnSOD. The high product dissociation constant k4 of MnSOD‐3 reflects low product inhibition making this enzyme efficient even at high levels of superoxide. 相似文献
155.
Human enteroviruses usually cause self-limited infections except polioviruses and enterovirus 71 (EV71), which frequently involve neurological complications. EV71 vaccines are being evaluated in humans. However, several challenges to licensure of EV71 vaccines need to be addressed. Firstly, EV71 and coxsackievirus A (CA) are frequently found to co-circulate and cause hand-foot-mouth disease (HFMD). A polyvalent vaccine that can provide protection against EV71 and prevalent CA are desirable. Secondly, infants are the target population of HFMD vaccines and it would need multi-national efficacy trials to prove clinical protection and speed up the licensure and usage of HFMD vaccines in children. An international network for enterovirus surveillance and clinical trials is urgently needed. Thirdly, EV71 is found to evolve quickly in the past 15 years. Prospective cohort studies are warranted to clarify clinical and epidemiological significances of the antigenic and genetic variations between different EV71 genogroups, which is critical for vaccine design. 相似文献
156.
Crystal structure of human frataxin 总被引:20,自引:0,他引:20
Dhe-Paganon S Shigeta R Chi YI Ristow M Shoelson SE 《The Journal of biological chemistry》2000,275(40):30753-30756
Friedreich's ataxia, an autosomal recessive neurodegenerative disorder characterized by progressive gait and limb ataxia, cardiomyopathy, and diabetes mellitus, is caused by decreased frataxin production or function. The structure of human frataxin, which we have determined at 1.8-A resolution, reveals a novel protein fold. A five-stranded, antiparallel beta sheet provides a flat platform, which supports a pair of parallel alpha helices, to form a compact alphabeta sandwich. A cluster of 12 acidic residues from the first helix and the first strand of the large sheet form a contiguous anionic surface on the protein. The overall protein structure and the anionic patch are conserved in eukaryotes, including animals, plants, and yeast, and in prokaryotes. Additional conserved residues create an extended 1008-A(2) patch on a distinct surface of the protein. Side chains of disease-associated mutations either contribute to the anionic patch, help create the second conserved surface, or point toward frataxin's hydrophobic core. These structural findings predict potential modes of protein-protein and protein-iron binding. 相似文献
157.
Kathryn A. Radigan Luisa Morales-Nebreda Saul Soberanes Trevor Nicholson Recep Nigdelioglu Takugo Cho Monica Chi Robert B. Hamanaka Alexander V. Misharin Harris Perlman G. R. Scott Budinger G?khan M. Mutlu 《PloS one》2014,9(9)
Rationale
During the recent H1N1 outbreak, obese patients had worsened lung injury and increased mortality. We used a murine model of influenza A pneumonia to test the hypothesis that leptin receptor deficiency might explain the enhanced mortality in obese patients.Methods
We infected wild-type, obese mice globally deficient in the leptin receptor (db/db) and non-obese mice with tissue specific deletion of the leptin receptor in the lung epithelium (SPC-Cre/LepRfl/fl) or macrophages and alveolar type II cells (LysM-Cre/Leprfl/fl) with influenza A virus (A/WSN/33 [H1N1]) (500 and 1500 pfu/mouse) and measured mortality, viral clearance and several markers of lung injury severity.Results
The clearance of influenza A virus from the lungs of mice was impaired in obese mice globally deficient in the leptin receptor (db/db) compared to normal weight wild-type mice. In contrast, non-obese, SP-C-Cre+/+/LepRfl/fl and LysM-Cre+/+/LepRfl/fl had improved viral clearance after influenza A infection. In obese mice, mortality was increased compared with wild-type mice, while the SP-C-Cre+/+/LepRfl/fl and LysM-Cre+/+/LepRfl /fl mice exhibited improved survival.Conclusions
Global loss of the leptin receptor results in reduced viral clearance and worse outcomes following influenza A infection. These findings are not the result of the loss of leptin signaling in lung epithelial cells or macrophages. Our results suggest that factors associated with obesity or with leptin signaling in non-myeloid populations such as natural killer and T cells may be associated with worsened outcomes following influenza A infection. 相似文献158.
Jianwei Xiao Jing Li Min Ouyang Tao Yun Baoye He Daili Ji Jinfang Ma Wei Chi Congming Lu Lixin Zhang 《Plant physiology》2012,160(4):1911-1922
The biogenesis and assembly of photosynthetic multisubunit protein complexes is assisted by a series of nucleus-encoded auxiliary protein factors. In this study, we characterize the dac mutant of Arabidopsis (Arabidopsis thaliana), which shows a severe defect in the accumulation of the cytochrome b6/f complex, and provide evidence suggesting that the efficiency of cytochrome b6/f complex assembly is affected in the mutant. DAC is a thylakoid membrane protein with two predicted transmembrane domains that is conserved from cyanobacteria to vascular plants. Yeast (Saccharomyces cerevisiae) two-hybrid and coimmunoprecipitation analyses revealed a specific interaction between DAC and PetD, a subunit of the cytochrome b6/f complex. However, DAC was found not to be an intrinsic component of the cytochrome b6/f complex. In vivo chloroplast protein labeling experiments showed that the labeling rates of the PetD and cytochrome f proteins were greatly reduced, whereas that of the cytochrome b6 protein remained normal in the dac mutant. DAC appears to be a novel factor involved in the assembly/stabilization of the cytochrome b6/f complex, possibly through interaction with the PetD protein.The cytochrome b6/f (Cyt b6/f) complex is a multisubunit complex that resides in the thylakoid membrane and functions in linear and cyclic electron transport. In the linear process, the complex receives electrons from PSII and transfers them to PSI, a process that is accompanied by the generation of a proton gradient, which is essential for ATP synthesis (Mitchell, 1961; Saraste, 1999). The native form of this complex is present as a dimer with a mass of 310 kD that can be converted into a 140-kD monomer with increasing detergent concentrations (Huang et al., 1994; Breyton et al., 1997; Mosser et al., 1997; Baniulis et al., 2009). In higher plants, the Cyt b6/f monomer contains at least eight subunits: Cyt f, Cyt b6, PetC, PetD, PetM, PetL, PetG, and PetN (Wollman, 2004). PetC and PetM are encoded by nuclear genes, whereas the others are encoded by plastid genes. It has been shown that PetG and PetN are necessary for complex stability in tobacco (Nicotiana tabacum; Schwenkert et al., 2007). By contrast, PetL is not required for the accumulation of other subunits of the Cyt b6/f complex, even though it is involved in the stability and formation of the functional dimer (Bendall et al., 1986; Schwenkert et al., 2007). Inactivation of PetC in Arabidopsis (Arabidopsis thaliana) resulted in significantly reduced amounts of Cyt b6/f subunits and completely blocked linear electron transport, indicating that PetC participates in the formation of the functionally assembled Cyt b6/f complex (Maiwald et al., 2003). In Synechocystis sp. PCC 6803, the PetM subunit has no essential role in Cyt b6/f complex electron transfer or accumulation; however, the absence of this subunit apparently affects the levels of other protein complexes involved in energy transduction (Schneider et al., 2001). In addition to the other proteins, FNR was identified as a subunit of the Cyt b6/f complex isolated from spinach (Spinacia oleracea) thylakoid membranes (Zhang et al., 2001).Previous research has revealed how the Cyt b6/f complex assembles into a functional dimer (Bendall et al., 1986; Lemaire et al., 1986; Kuras and Wollman, 1994). In the Cyt b6/f complex, Cyt b6 and PetD form a mildly protease-resistant subcomplex that serves as a template for the assembly of Cyt f and PetG, producing a protease-resistant cytochrome moiety (Wollman, 2004). The PetC and PetL proteins then participate in the assembly of the functional dimer (Schwenkert et al., 2007). PetD becomes more unstable in the absence of Cyt b6, and the synthesis of Cyt f is greatly reduced when either Cyt b6 or PetD is inactivated, indicating that both Cyt b6 and PetD are prerequisite for the synthesis of Cyt f (Kuras and Wollman, 1994). The reduced synthesis of Cyt f can be explained by the so-called CES (for controlled by epistasy of synthesis) mechanism. It is suggested that, in this mechanism, the synthesis rate of some chloroplast-encoded subunits of photosynthetic protein complexes is regulated by the availability of their assembly partners from the same complexes (Choquet et al., 2001). The mechanism of CES for Cyt f has been studied in detail in Chlamydomonas reinhardtii (Choquet et al., 1998; Choquet and Vallon, 2000). In it, the unassembled Cyt f inhibits its own translation through a negative feedback mechanism, and MCA1 and TCA1 have been demonstrated to be involved in the regulation of Cyt f synthesis (Boulouis et al., 2011).Many studies have focused on understanding the conversion of apocytochrome to holocytochrome via the covalent binding of heme in Cyt f and Cyt b6 during the assembly of Cyt b6/f through the CCS and CCB pathways (Nakamoto et al., 2000; Wollman, 2004; de Vitry, 2011). The CCS pathway was originally discovered in the green alga C. reinhardtii through genetic studies of ccs mutants (for cytochrome c synthesis) that display a specific defect in membrane-bound Cyt f and soluble Cyt c6, two thylakoid lumen-resident c-type cytochromes functioning in photosynthesis (Xie and Merchant, 1998). In the CCS pathway, six loci that include plastid ccsA and nuclear CCS1 to CCS5 have been found in C. reinhardtii (Xie and Merchant, 1998). In these mutants, the apocytochrome is normally synthesized, targeted, and processed, but heme attachment is perturbed. The CCB pathway is involved in the covalent attachment of heme c(i) to Cyt b6 on the stromal side of the thylakoid membranes (Kuras et al., 2007). The ccb mutants show defects in the accumulation of subunits of the Cyt b6/f complex and covalent binding of heme to Cyt b6 (Lyska et al., 2007; Lezhneva et al., 2008). However, heme binding is not a prerequisite for the assembly of Cyt b6 into the Cyt b6/f complex, although the fully formed Cyt b6/f showed an increased sensitivity to protease (Saint-Marcoux et al., 2009).The assembly of the Cyt b6/f complex is a multistep process, and current studies have shown that the covalent binding of heme to Cyt f and Cyt b6 is highly regulated. Thus, it is reasonable to speculate that, similar to the other photosynthetic protein complexes (Mulo et al., 2008; Nixon et al., 2010; Rochaix, 2011), the assembly of the Cyt b6/f complex is also assisted by many nucleus-encoded factors. In this study, we characterized an Arabidopsis protein, DAC (for defective accumulation of Cyt b6/f complex), that seems to be involved in the assembly of the Cyt b6/f complex. In addition, we provide evidence that DAC interacts directly with PetD before it assembles within the Cyt b6/f complex. 相似文献
159.
Meng Xie Guodong Ren Chi Zhang Bin Yu 《The Plant journal : for cell and molecular biology》2012,72(3):491-500
Studies have identified a sub‐group of SGS3‐LIKE proteins including FDM1–5 and IDN2 as key components of RNA‐directed DNA methylation pathway (RdDM). Although FDM1 and IDN2 bind RNAs with 5′ overhangs, their functions in the RdDM pathway remain to be examined. Here we show that FDM1 interacts with itself and with IDN2. Gel filtration suggests that FDM1 may exist as a homodimer in a heterotetramer complex in vivo. The XH domain of FDM1 mediates the FDM1–FDM1 and FDM1–IDN2 interactions. Deletion of the XH domain disrupts FDM1 complex formation and results in loss‐of‐function of FDM1. These results demonstrate that XH domain‐mediated complex formation of FDM1 is required for its function in RdDM. In addition, FDM1 binds unmethylated but not methylated DNAs through its coiled‐coil domain. RNAs with 5′ overhangs does not compete with DNA for binding by FDM1, indicating that FDM1 may bind DNA and RNA simultaneously. These results provide insight into how FDM1 functions in RdDM. 相似文献
160.
最近的研究表明,蛋白质内含子(intein)介导的B区缺失型凝血因子Ⅷ (BDD-FⅧ)的轻链和重链剪接可顺式促进后者的分泌,而且剪接反应在细胞内、外均可发生.为进一步提高基于蛋白质内含子的双载体转BDD-FⅧ基因的功效,将具有促进重链分泌作用的位于Pro1640~Ser1690的酸性区3(acidic region-3,AR-3)引入重链,检验对蛋白质内含子剪接的BDD-FⅧ蛋白分泌和活性的影响.用融合蛋白内含子的附加ar-3重链(HCAR3IntN)基因和轻链(IntCLC)基因共转染培养的HEK293细胞,分别用ELISA和Coatest法定量分析分泌至培养上清中剪接BDD-FⅧ蛋白量和生物活性,并用免疫印迹观察了细胞内的BDD-FⅧ剪接.结果显示,共转HCAR3IntN和IntCLC基因细胞,分泌至上清的剪接BDD-FⅧ蛋白量和活性分别为(173±26) μg/L和(1.31±0.15) U/ml,明显高于未添加ar-3的蛋白质内含子融合重链(HCIntN)与轻链(IntCLC)基因共转染细胞[(102±12) μg/L和(0.79±0.09) U/ml],提示AR-3对蛋白质内含子剪接的BDD-FⅧ蛋白分泌和活性有明显改善作用.而且,分别转HCAR3IntN和IntCLC基因细胞混合培养后的上清中,亦检测到剪接的BDD-FⅧ蛋白和活性[(35±7) μg/L和(0.28±0.08) U/ml],表明蛋白质内含子可进行不依赖细胞机制的蛋白质剪接.另外,转基因细胞总蛋白呈现明显的可与FⅧ多克隆抗体进行反应的剪接BDD-FⅧ蛋白条带,直观地反映细胞内BDD-FⅧ的剪接.为动物模体内运用蛋白质反式剪接技术的双腺相关病毒载体(AAV)转BDD-FⅧ基因实验提供了依据. 相似文献