负载金属离子的5A沸石的体外抗菌实验

目的：探讨负载金属离子的5A沸石的体外抗菌作用。方法：选用金黄色葡萄球菌、铜绿假单孢菌、白色念珠菌,利用倍比稀释法对5A沸石组、磺胺嘧啶银组及载不同浓度Ag＋、Zn2＋5A沸石共15组进行了体外抗菌试验研究,确定最佳抗菌效果离子负载方案。结果：三种细菌的MIC,双金属离子负载在抗菌上具有协同载Ag＋5A沸石分别达到了125μg/ml~500μg/ml、31.25μg/ml~500μg/ml、250μg/ml~500μg/ml;附载Zn2＋5A沸石分别达到了12.5mg/ml~25mg/ml、6.25mg/ml~50mg/ml、25mg/ml;负载双离子5A沸石分别为250μg/ml~500μg/ml、62.5μg/ml~500μg/ml、500μg/ml。结论：5A沸石负载金属离子后均具有抗菌作用,且抗菌作用与附载金属离子的量正相关;负载相同质量Ag＋的5A沸石较附载Zn2＋者具有更强的抗菌作用;双金属离子负载在抗菌上具有协同作用;2%Ag＋＋8%Zn2＋与2%Ag＋＋10%Zn2＋及4%载银组与阳性对照组无显著性差异。     

从铅锌矿渣中分离的微生物对重金属吸附特性的研究

从铅锌矿渣中分离到 16种菌 (包括 7株细菌和 9株真菌 ) ,并研究了它们对Zn2 + ,Pb2 + ,Cu2 + 的吸附特性。发现大多数菌株对Pb2 + 与Zn2 + 有不同程度的吸附 ,但对Cu2 + 的吸附能力较小。菌株对Zn2 + 的吸附率大于对Pb2 + 的吸附 ,能吸附Pb2 + 的菌株也能吸附Zn2 + 。pH 4～ 6是真菌吸附金属离子的较好范围 ,细菌仅在pH =5 .0条件下 ,对Pb2 + 与Zn2 + 有吸附。在测试的不同金属离子浓度范围内 (5 0mg/L 相似文献   

不同浓度尼古丁对牙周膜成纤维细胞增殖及纤维结合蛋白合成的作用

目的:探讨不同浓度尼古丁对人牙周膜成纤维细胞(PDLFs)增殖及纤维结合蛋白(Fn)合成的作用。方法:不同浓度的尼古丁(50 ng/ml,250 ng/ml,500 ng/ml,1μg/ml,2μg/ml,3μg/ml)作用于PDLFs,MTT比色法检测细胞增殖活性,流式细胞仪检测细胞周期,酶联免疫吸附测定法(ELISA)检测Fn合成含量。结果:不同浓度尼古丁作用下:人PDLFs的增殖均被抑制,且呈浓度依赖性。浓度为250 ng/ml~3 ug/ml的尼古丁有明显抑制人PDLFs增殖的作用(P0.05),3 ug/ml尼古丁显示出最强的抑制增殖作用(P0.01);人PDLFs的G0-G1期、S期、G2-M期与对照组相比,G0-G1期细胞周期分布比例逐渐增高,S期和G2-M期逐渐降低,差异均有统计学意义,呈浓度依赖性;人PDLFs合成Fn逐渐减少,呈浓度依赖性。浓度为50 ng/ml~3μg/ml的尼古丁均有明显抑制人PDLFs合成Fn的作用(P0.05),其中3μg/ml抑制作用最强。结论:尼古丁抑制牙周膜细胞的增殖及Fn的合成,呈浓度依赖性,并影响其细胞周期的进程,进而影响牙周新附着的形成,加重牙周病的病情。     

金属离子对酵母胞内核黄素产量的影响

研究了金属离子对脆壁酵母 (Saccharomycesefragilis)RY 5胞内核黄素积累的影响 ,运用均匀设计方法进行了培养基优化。结果表明 :Mg2 + ,Zn2 + ,Fe2 + 对RY 5的核黄素产量有着显著影响 ,培养基中金属离子的最佳浓度为 :MgSO4·7H2 O 1 .1g/L ;CoSO4·7H2 O 2 8mg/L ;CuSO4·5H2 O 0 .0 1mg/L ;MnCl2 0 .0 2mg/L ;ZnSO4·7H2 O 3 4mg/L ;FeSO4·7H2 O 1 4mg/L ,RY 5的核黄素产量可达 1 40mg/kg。     

产木聚糖酶白地霉培养特性及部分纯化的酶学特性

本文对白地霉Ref1的培养特性、产酶条件和酶学特性进行了初步研究。结果表明:该菌为低温型菌株,其最佳生长条件为pH6、20℃和酵母膏作为氮源;最佳产酶条件为pH3-7、15℃及以酵母膏氮源;条件优化后产酶可达118.7U/mL,可溶蛋白含量可达到60μg/mL,酶溶液的比活可达到1250U/mg蛋白质;该木聚糖酶的最适反应温度和pH分别为50℃和5,金属离子Mg2+、Na+和8mmol/L的Fe2+、Cu2+、Zn2+等对木聚糖酶的活性有抑制作用,而Ca2+、4mmol/L的Fe2+、Cu2+、Zn2+和8mmol/L的Mn2+等对该酶反应则有促进作用;该木聚糖酶在保温2h后在15-40℃范围内能保持80%以上的酶活性,在50℃时能保持68%的酶活性;用lineweaver-Burk作图法(双倒数作图法)求得该酶的最大反应速度Vmax和Km值分别为163.38mmol/mg/min和0.75mg/mL。     

铁改性沸石对Clostridium acetobutylicum XY16固定效率及发酵性能的影响

考察4种无机铁盐改性沸石对丁醇生产菌Clostridium acetobutylicum XY16的固定效率及其发酵产丁醇性能的影响。结果表明:铁改性沸石对菌体的固定效率均优于未改性沸石,而Fe3+改性效果优于Fe2+,经FeCl3改性的沸石对菌体具有良好的吸附作用,当Fe3+-zeolite用量为180 g/L时,细胞的固定效率达到87%。在此基础上,比较了沸石负载的铁离子量对丁醇发酵性能的影响,沸石负载的铁离子量为6.0 mg/g时可显著提高丁醇发酵性能,当葡萄糖质量浓度为60 g/L时进行发酵,丁醇产量为13.5 g/L,总溶剂可达20 g/L,总溶剂的生产速率为0.385g/(L.h),比游离细胞发酵分别提高了9.5%、10.3%和40%。     

医院内鼠伤寒沙门氏菌流行株耐药质粒的分析

采用质粒及其酶切片段的指纹分析,配合以生化反应、血清学鉴定、最小抑菌浓度(MIC)测定,就我院一次鼠伤寒沙门氏菌的暴发流行中任选的7个菌株进行了分子分析。所有流行株均有相同的生化反应谱,血清学鉴定均属0．Hi型。按Mic结果及质粒指纹分析,可将这七个株分成两组,甲组：5个株耐青霉素(PC>500mg/ml),氨苄青霉素(AP,>500μg/ml),头孢唑啉(Cz,16μg/ml),红霉素(Er,>500μg／ml),氯霉素(Cm,250μg／ml),链霉素(Sm,>500μg／ml),卡那霉素(Km,>500μg/ml)及四环素(Tc,>500μg／ml)8种抗生素。     

胡萝卜苷抑制HepG-2细胞增殖和迁移及拓扑异构酶表达

目的探讨胡萝卜苷对HepG2细胞增殖、迁移及DNA拓扑异构酶(topoisomerase,TOPO)Ⅰ和Ⅱ表达的影响。方法体外培养人肝癌HepG2细胞。CCK-8实验观察不同浓度(200μg/ml、150μg/ml、100μg/ml和50μg/ml)胡萝卜苷对HepG2细胞增殖的影响。qRT-PCR实验观察200μg/ml胡萝卜苷对HepG2细胞TOPOⅠ和TOPOⅡmRNA表达的影响。Transwell小室模型检测200μg/ml胡萝卜苷对HepG2细胞迁移的影响。结果胡萝卜苷对HepG2细胞增殖有明显抑制作用,并在一定范围内(0μg/ml~200μg/ml)呈现浓度依赖性。与未用胡萝卜苷处理的HepG2比较,经200μg/ml胡萝卜苷作用的HepG2细胞穿越基膜的数量显著减少,TOPOⅠ和TOPOⅡmRNA相对表达量显著降低。结论胡萝卜苷可能通过下调TOPOⅠ、TOPOⅡ基因表达而抑制HepG2细胞增殖,并具有抑制HepG2细胞迁移的能力。     

链霉菌壳聚糖酶的纯化及其酶学性质

分离纯化从烟台近海土壤筛选的链霉菌来源壳聚糖酶,并对其酶学性质进行研究。通过(NH4)2SO4分级沉淀分离得粗酶,透析后经Sephadex G-100柱纯化,得到2种壳聚糖酶(ChA和ChB)。SDS-聚丙烯酰胺凝胶电泳及Sephadex G-75凝胶过滤确定ChA的相对分子质量,研究ChA的最适底物水解条件、热稳定性、水解动力学及金属离子对酶活性影响。结果表明:ChA为单亚基蛋白,相对分子质量为4.16×104,在220和280 nm处呈现两个紫外吸收峰,催化水解壳聚糖的最适pH为5.0～5.5,最适温度为55℃。热稳定性实验表明:30℃温育1 h后酶活为初始酶活的33.3%,40℃温育1 h后酶活为初始酶活的22.2%。ChA的酶促反应初速率为6.2×10-3μmol/(mL.min),Vmax为0.318μmol/(mL.min),Km为1×10-2mg/mL,且对底物表现相对专一性。K+、Na+、Li+、Mg2+、Ca2+、Ba2+Zn2+、Cu2+和Co2+对ChA活力均表现为抑制作用,过渡金属离子Mn2+对酶有激活作用,重金属离子Hg2+、Ag+、Cd2+和Pb2+对酶均有较强的抑制作用。Mn2+和Zn2+的动力学研究表明,Mn2+对酶为混合型激活作用,Zn2+对酶为竞争性抑制作用。     

重金属Hg2+、Cd2+对西藏拟溞的急性毒性研究

在静置不换水条件下,研究了重金属Hg2+、Cd2+对西藏拟溞的急性毒性作用。结果表明,Hg2+和Cd2+对西藏拟溞的24hLC50分别是468.3441μg/L、12.3140 mg/L,48hLC50分别是124.3158μg/L、6.8183 mg/L,Hg2+、Cd2+对西藏拟溞急性毒性的安全浓度分别是2.6277μg/L、0.6271 mg/L。Hg2+对西藏拟溞的毒性大于Cd2+的毒性。     

Synergetic inhibition of metal ions and genistein on alpha-glucosidase

Inhibition of metal ions and synergetic inhibition of metal ions/genistein on alpha-glucosidase activity has been investigated. We have examined the inhibitory effect of Cu2+, Ni2+, Mg2+, Fe2+, Hg2+, Zn2+, Ca2+, Pb2+, Ag+, V5+, V4+ and Mn2+ ions. The results show that the nature of the inhibition was reversible, slow-binding, non-competitive, and the Ki values of some ions such as Cu2+, Ni2+ and Zn2+ range from 10(-5) to 10(-6) M. Moreover, synergetic inhibitory effect of metal ions and genistein on alpha-glucosidase were studied with kinetics method. It is concluded that the inhibitory effect was much greater when both of them were added to the reactant solution simultaneously than that they were added, respectively, which suggests that the inhibitors seem to bind to the different sites of alpha-glucosidase at the same time. Furthermore, the mechanism of the synergetic inhibition was examined by spectrophotometry.     

Detergent Effects on the Phosphatidylinositol-Specific Phospholipase C in Rat Brain Synaptosomes

In the presence of Ca2+ (2.5 mM) and using [14C]arachidonoyl phosphatidylinositol (PI) membrane as substrate, phosphatidylinositol-specific phospholipase C (PI-PLC) (EC 3.1.4.10) in rat brain synaptosomes was activated by deoxycholate but not taurocholate. Calcium stimulated enzymic hydrolysis by both detergents, but the stimulatory effect of taurocholate was less than that of deoxycholate. Peak stimulation for deoxycholate was observed at 1 mg/ml, whereas that for taurocholate was 4 mg/ml. When 1 mM EDTA was added to the taurocholate (4 mg/ml) and Ca2+ (3.5 mM) system, synaptosomal PI-PLC activity was greatly stimulated, to almost the same level as the deoxycholate + Ca2+ system. This system required the presence of all three factors, and EGTA could not effectively replace EDTA in the stimulatory action. The detergent-induced hydrolysis of synaptosomal PI by the deoxycholate + Ca2+ and the taurocholate + Ca2+ + EDTA systems was strongly inhibited by divalent metal ions such as Zn2+, Cu2+, Pb2+, and Fe2+, whereas Mg2+ and Ca2+ were ineffective. Nevertheless, only the deoxycholate + Ca2+ system was responsive to enzyme inhibition by membrane-perturbing agents such as lysophospholipids and free fatty acids. The specific requirement for EDTA in the taurocholate system may be due to the release of a pool of inhibitory divalent metal ions from the membranes.     

A bacterial view of the periodic table: genes and proteins for toxic inorganic ions

Essentially all bacteria have genes for toxic metal ion resistances and these include those for Ag+, AsO2-, AsO4(3-), Cd2+ Co2+, CrO4(2-), Cu2+, Hg2+, Ni2+, Pb2+, TeO3(2-), Tl+ and Zn2+. The largest group of resistance systems functions by energy-dependent efflux of toxic ions. Fewer involve enzymatic transformations (oxidation, reduction, methylation, and demethylation) or metal-binding proteins (for example, metallothionein SmtA, chaperone CopZ and periplasmic silver binding protein SilE). Some of the efflux resistance systems are ATPases and others are chemiosmotic ion/proton exchangers. For example, Cd2+-efflux pumps of bacteria are either inner membrane P-type ATPases or three polypeptide RND chemiosmotic complexes consisting of an inner membrane pump, a periplasmic-bridging protein and an outer membrane channel. In addition to the best studied three-polypeptide chemiosmotic system, Czc (Cd2+, Zn2+, and Co2), others are known that efflux Ag+, Cu+, Ni2+, and Zn2+. Resistance to inorganic mercury, Hg2+ (and to organomercurials, such as CH3Hg+ and phenylmercury) involve a series of metal-binding and membrane transport proteins as well as the enzymes mercuric reductase and organomercurial lyase, which overall convert more toxic to less toxic forms. Arsenic resistance and metabolizing systems occur in three patterns, the widely-found ars operon that is present in most bacterial genomes and many plasmids, the more recently recognized arr genes for the periplasmic arsenate reductase that functions in anaerobic respiration as a terminal electron acceptor, and the aso genes for the periplasmic arsenite oxidase that functions as an initial electron donor in aerobic resistance to arsenite.     

Chromate reduction by cell-free extract of Bacillus firmus KUCr1

Microbial enzymatic reduction of a toxic form of chromium [Cr(VI)] has been considered as an effective method for bioremediation of this metal. This study reports on the in vitro reduction of Cr(VI) using cell-free extracts from a Cr(VI) reducing Bacillus firmus KUCr1 strain. Chromium reductase was found to be constitutive and its activity was observed both in soluble cell fractions (S12 and S150 and membrane cell fraction (P150). The reductase activity of S12 fraction was found to be optimal at 40 microM Cr(VI) with enzyme concentration equivalent to 0.493 mg protein/ml. Enzyme activity was dependent on NADH or NADPH as electron donor; optimal temperature and pH for better enzyme activity were 70 degrees C and 5.6, respectively. The Km value of the reductase was 58.33 microM chromate having a V(max) of 11.42 microM/min/mg protein. The metabolic inhibitor like sodium azide inhibited reductase activity of membrane fraction of the cell-free extract. Metal ions like Cu2+, Co2+, Ni2+ and As3+ stimulated the enzyme but others, such as Ag+, Hg2+, Zn2+, Mn2+, Cd2+ and Pb2+, inhibited Cr(VI) reductase activity.     

DNA structural transitions induced by divalent metal ions in aqueous solutions

Using methods of IR spectroscopy, light scattering, gel-electrophoresis DNA structural transitions are studied under the action of Cu2+, Zn2+, Mn2+, Ca2+ and Mg2+ ions in aqueous solution. Cu2+, Zn2+, Mn2+ and Ca2+ ions bind both to DNA phosphate groups and bases while Mg2+ ions-only to phosphate groups of DNA. Upon interaction with divalent metal ions studied (except for Mg2+ ions) DNA undergoes structural transition into a compact form. DNA compaction is characterized by a drastic decrease in the volume occupied by DNA molecules with reversible formation of DNA dense particles of well-defined finite size and ordered morphology. The DNA secondary structure in condensed particles corresponds to the B-form family. The mechanism of DNA compaction under Mt2+ ion action is not dominated by electrostatics. The effectiveness of the divalent metal ions studied to induce DNA compaction correlates with the affinity of these ions for DNA nucleic bases: Cu2+>Zn2+>Mn2+>Ca2+>Mg2+. Mt2+ ion interaction with DNA bases (or Mt2+ chelation with a base and an oxygen of a phosphate group) may be responsible for DNA compaction. Mt2+ ion interaction with DNA bases can destabilize DNA causing bends and reducing its persistent length that will facilitate DNA compaction.     

重金属胁迫对真菌生长及发酵液pH的影响

【背景】矿区废渣堆重金属污染严重,废渣堆分布着一些耐重金属的微生物。【目标】探究重金属胁迫对真菌生长及发酵液pH的影响。【方法】从金川矿区废渣堆采集土样,分离培养具有产酸能力的真菌,采用形态学与分子生物学技术鉴定这些菌株,并测定其产酸能力及其对Pb~(2+)、Cd~(2+)和Zn~(2+)的耐受性。【结果】形态学及18S rRNA基因序列分析获得黑曲霉ZJ-I (Aspergillus niger ZJ-I)和产黄青霉ZJ-V (Penicilium chrysogenum ZJ-V)两个产酸菌株。未加重金属培养时,与不接种真菌对照相比,上述2个菌株的发酵液pH分别下降0.58和0.69;添加重金属处理后,随着重金属浓度的增加,pH变化幅度变小,不同浓度Pb~(2+)使A.nigerZJ-I发酵液pH值分别下降0.53、0.39、0.34和0.39,使P. chrysogenum ZJ-V发酵液pH值分别下降0.21、0.23、0.14和0.09;不同浓度Cd~(2+)使A. niger ZJ-I发酵液pH值分别下降0.75、0.43、0.39和0.32,使P. chrysogenum ZJ-V发酵液pH值分别下降0.62、0.46、0.38和0.49;不同浓度Zn~(2+)可使A.nigerZJ-I发酵液pH分别下降0.87、0.61、0.57和0.43,使P. chrysogenum ZJ-V发酵液pH分别下降1.1、0.34、0.44和0.49;低浓度的Zn~(2+)对菌株A.niger ZJ-I和P. chrysogenum ZJ-V产酸都有促进作用,低浓度的Cd~(2+)对A. niger ZJ-I产酸有促进作用。当Cd~(2+)、Zn~(2+)与Pb~(2+)的浓度分别超过200、400、2 000 mg/L时,3种不同浓度的重金属对菌株A. niger ZJ-I的抑制率达到80%以上,抑制效果显著;当Cd~(2+)、Zn~(2+)与Pb~(2+)浓度分别超过200、1 000、2 000 mg/L时,3种不同浓度的重金属对菌株P.chrysogenumZJ-V抑制率达到80%以上,抑制效果显著。【结论】两株真菌均具有产酸能力和一定的重金属耐受性,菌株P. chrysogenum ZJ-V发酵液产酸性能与重金属耐受能力都要优于ZJ-I,菌株ZJ-V具备潜在的淋洗重金属污染土壤的能力。     

Arsenic and cadmium resistance in environmental isolates of Yersinia enterocolitica and Yersinia intermedia

Environmental strains of Yersinia enterocolitica representing biotype 1A lack virulence plasmid (pYV) and are regarded as non-pathogenic. Though these occupy a diverse range of environmental niches, nothing is known about their resistance to heavy metals. The minimal inhibitory concentrations (MICs) of various metal ions, namely Ag+, Cu2+, Zn2+, Cd2+, As5+, and As3+, for strains of Yersinia enterocolitica (biotype 1A) and Yersinia intermedia (biotypes 1, 2, and 4), isolated from sewage effluents or pork, were determined. All isolates were resistant (MICs 2.5-5 mM) to Cd2+. The MICs of arsenic varied with bacterial strain and the chemical species of the arsenic used. For the majority of the strains, however, it was between 5-10 mM of Na2HAsO4.7H2O and NaAsO2, and 0.625-2.5 mM of As2O3. Except for one isolate, MICs of Ag+, Cu2+, and Zn2+ for these strains were in the range of 0.3-0.625 mM.     

匍茎翦股颖对Cu2+、Zn2+、Cd2+与Pb2+ 胁迫的生长响应与阈限浓度

采用砂培法,研究了匍茎翦股颖对Cu2+、Zn2+、Cd2+与Pb2+胁迫的生长响应及阈限浓度,结果表明:种子萌发率随着4种重金属浓度的增加而下降。对株高的影响是当重金属浓度小于100mg/L时会促进株高生长,高于100mg/L则产生抑制作用。Cu2+显著抑制根系生长,并随浓度的增加抑制效应愈加显著;在Cu2+浓度为600mg/L时匍茎翦股颖的根长比对照下降了93.75%。Cu2+、Zn2+、Pb2+浓度小于200mg/L时会促进地上生物量的增加,但高于200mg/L时,地上生物量会随着3种重金属的增加而减少。Cu2+、Zn2+浓度小于100mg/L或Cd2+、Pb2+浓度小于200mg/L会增加叶绿素的含量,高浓度会降低叶绿素的含量;Cd2+在浓度为600mg/L时显著降低叶绿素含量,与对照相比,下降了43.55%。匍茎翦股颖生长的综合效应分析表明,匍茎翦股颖对Cu2+胁迫最敏感,具有较低的阈限浓度,而Zn2+胁迫对匍茎翦股颖的生长影响最小,阈限浓度相对较高。