细菌还原氧化态硒产生红色单质硒的研究进展

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。     

一株假单胞菌(Pseudomonas alcaliphila MBR)好氧还原亚硒酸钠为红色单质硒

【目的】本实验室保藏的一株异化硝酸盐还原菌(Pseudomonas alcaliphila MBR),其能够在好氧环境下以有机碳源为电子供体,把易溶解、高毒性亚硒酸钠还原成为红色单质硒,本文对该菌株还原亚硒酸盐的特征进行了研究。【结果】结果表明该菌株可以在pH为6-11环境中生长,对亚硒酸钠有较强抗性,其MIC(minimal inhibitory concentration)可高达50 mmol/L。在5天时间内,菌体以柠檬酸钠为电子供体,把2 mmol/L亚硒酸钠完全还原为红色单质硒并主要积累于胞外。硝酸盐和还原型谷胱甘肽对菌体还原亚硒酸钠具有促进作用,初步确定菌体对亚硒酸钠的还原是细胞膜或细胞质中的某些物质催化的结果。【结论】本项研究为应用Pseudomonas alcaliphila MBR于生物反应器提供了重要基础。     

产生辅酶Q10的光合细菌菌株的分离及鉴定

对水塘污泥中富集分离的13株光合细菌产生的CoQ10进行定性定量分析,筛出CoQ10含量较高的菌株2c并对其进行系统鉴定。菌株2c为革兰氏阴性菌,细胞杆状,菌体大小0.6μm～0.9μm×1.2μm～2.0μm,单极生鞭毛,片层状光合内膜,位于细胞质膜下并与之平行。光照厌氧或黑暗好氧条件下均可生长,光照下菌体产生红色素,菌体含有细菌叶绿素a和类胡萝卜素。最适生长温度30～35℃,pH7.0～8.0。多种有机化合物均可作为光合作用的电子供体和碳源,蛋白胨和硫酸铵是其生长的较好氮源,酵母膏对其生长有明显刺激作用。16S rDNA序列系统发育分析表明,菌株2c在系统进化树上与GenBank中序列号为AY751758、DQ001155、DQ001158的沼泽红假单胞菌聚为一族。菌株2c至少能稳定传代15次。初步确定菌株2c为沼泽红假单胞菌。     

光合细菌PSB-1菌株的分离鉴定及其生物学特性的研究

光合细菌菌株ＰＳＢ－１,初步定为Ｒｈｏｄｏｐｓｅｕｄｏｍｏｎａｓ ａｃｉｄｏｐｈｉｌａ,系由生活污水中分离获得,革兰氏反应阴性,菌体大小为：长０．２５～０．４５μｍ,宽０．８～２．０μｍ,单个细胞卵圆至球形,出芽生殖,未观察到鞭毛。菌落为玫瑰红色,菌体液体培养物为深红色,菌体中含有丰富的细菌叶绿素ａ和类胡萝卜素,光合内膜结构为片层状,位于质膜之下并与质膜平行。ＰＳＢ－１在黑暗和光照中均能生长,但在黑暗中培养时菌液颜色不变,能利用多种有机碳源和氮源,ＤＮＡ中Ｇ＋Ｃ摩尔分数为６５．７％。     

净化养殖水体紫色非硫光合细菌的筛选与鉴定

本研究从杭州养鱼塘水样及底泥样品中富集分离得到三株紫色非硫光合细菌,分别命名为HZ-3,HZ-4,HZ-5。 通过比较这三株菌对鱼、虾养殖水体的净化效果,筛选出菌株HZ-5 净化能力较强 ,经过5天的处理,该菌株使养鱼塘水样的COD 降低24.87%;使养虾池塘水样的COD 降低 36.99%;使养鱼塘水样的亚硝态氮的降解率达到97.79%。对菌株HZ-5进行了形态学观察、生理生化鉴定、活细胞吸收光谱以及16S rDNA序列分析。16S rDNA序列分析结果表明该菌株与沼泽红假单胞菌的16S rDNA序列有高达99％的同源性,结合形态特征和生理生化特性以及活细胞吸收光谱特征等,将其鉴定为沼泽红假单胞菌（Rhodopseudomonas palustris）。     

光合细菌产氢因子的研究进展

光合细菌在固氮的同时释放氢气。产氢与固氮是同步进行的。固氮酶与氢酶共同影响光合细菌的产氢活性,而外源生理条件又影响着固氮酶与氢酶的活性,其中有机碳阻抑吸氢酶表达,促进产氢;氨则抑制固氮活性而降低产氢量;氧气的存在使固氮酶与氢酶都失活,从而抑制放氢反应的进行。     

南极抗细菌活性菌株的筛选及系统发育分析

分别以大肠杆菌、枯草芽孢杆菌、金黄色葡萄球菌、青枯假单胞菌、绿脓假单胞菌和苏云金芽孢杆菌为指示菌,采用琼脂扩散法对实验室保存的580株极地细菌进行了抗菌活性菌株的筛选与活性验证,从中筛选出4株对上述指示菌株具有明显抗菌效果的活性菌株,其编号分别为97、Z11、Z18及Z19,并对其生长曲线、抗菌活性曲线和系统发育地位进行研究。结果表明,4株菌均在培养24 h后进入指数生长期,菌株97在培养48 h后达到稳定期,而菌株Z11、Z18及Z19在培养60 h后达到稳定期。抗菌活性分别在培养84、96、72和72 h时达到最高。系统发育分析表明,该4株菌分别属于伦黑墨氏菌属(Rheinheimera)、嗜冷杆菌属(Psychrobacter)、假单胞菌属(Pseudomonas)和嗜冷杆菌属(Psychrobacter)。     

沼泽红假单胞菌对亚硒酸盐还原脱毒的研究

主要研究沼泽红假单胞菌对亚硒酸盐还原脱毒作用及其脱毒机理。通过单因子实验、正交试验, 对影响亚硒酸盐还原脱毒的因素进行研究, 得到沼泽红假单胞菌还原亚硒酸盐的最佳条件为: 亚硒酸钠添加量是25 mg/L, 培养的第5天接种接种量15% (质量比)。在该条件下, 对亚硒酸钠去除率可达98.2%。研究发现, 亚硒酸盐还原酶主要存在于细胞质, 分子量约为182 kD, 由4个亚基组成。通过透射电子显微镜观察, 菌体表面出现粒径在5 nm?200 nm之间的高电子密度颗粒, 初步表明亚硒酸盐在沼泽红假单胞菌体内被     

影响光合细菌类胡萝卜素形成因素的研究

对已初步确认为球形红假单胞菌属的S—1菌株进行了类胡萝卜素形成因素的研究。通过对光照强度、温度、pH、碳源、氮源、生长因子和无机盐成份等培养条件的探讨,找到了适合类胡萝卜素形成的条件,为开发光合细菌类胡萝卜素提供了依据。     

长白山温泉无氧芽孢杆菌的分离鉴定

[目的]对长白山温泉中嗜热微生物进行分离鉴定,并了解其生理生化特性.[方法]采用橄榄油富集培养基,稀释平板涂布法对长白山温泉样品进行分离得到一株嗜热菌CBS-5;在电子和光学显微镜下观察菌体形态和芽孢;应用生理生化试验、16S rDNA序列分析以及(G C)mol%含量等方法对菌株特性进行鉴定.[结果]菌株CBS-5为革兰氏阳性菌,无鞭毛,产端生芽孢,最适生长温度为65℃,最适pH7.7左右,能以蔗糖、麦芽糖和乳糖等作为唯一碳源生长,具有酯酶和过氧化氢酶活性,对卡那霉素、红霉素和硫酸新霉素等抗生素均无抗性.Tm法测定该菌的(G C)mol%含量为41.9%.脂肪酸成分分析表明在CBS-5中iso-15:0的含量最高,为24.20%,与无氧芽孢杆菌属成员一致.以该菌的16S rDNA序列为基础构建了系统发育树;16S rDNA序列同源性比对表明该菌与无氧芽孢杆菌属各种之间的同源性在95.1%-98.5%之间.[结论]菌株CBS-5(=JCM 15484)是一株嗜热无氧芽孢杆菌,具有产酶活性,对于研究和开发化工、食品和环境保护方面的工业用酶具有重要价值.     

Reduction of selenite and detoxification of elemental selenium by the phototrophic bacterium Rhodospirillum rubrum.

The effect of selenite on growth kinetics, the ability of cultures to reduce selenite, and the mechanism of detoxification of selenium were investigated by using Rhodospirillum rubrum. Anoxic photosynthetic cultures were able to completely reduce as much as 1. 5 mM selenite, whereas in aerobic cultures a 0.5 mM selenite concentration was only reduced to about 0.375 mM. The presence of selenite in the culture medium strongly affected cell division. In the presence of a selenite concentration of 1.5 mM cultures reached final cell densities that were only about 15% of the control final cell density. The cell density remained nearly constant during the stationary phase for all of the selenite concentrations tested, showing that the cells were not severely damaged by the presence of selenite or elemental selenium. Particles containing elemental selenium were observed in the cytoplasm, which led to an increase in the buoyant density of the cells. Interestingly, the change in the buoyant density was reversed after selenite reduction was complete; the buoyant density of the cells returned to the buoyant density of the control cells. This demonstrated that R. rubrum expels elemental selenium across the plasma membrane and the cell wall. Accordingly, electron-dense particles were more numerous in the cells during the reduction phase than after the reduction phase.     

Transformation of selenate and selenite to elemental selenium byDesulfovibrio desulfuricans

Summary Desulfovibrio desulfuricans (DSM 1924) can be adapted to grow in the presence of 10 mM selenate or 0.1 mM selenite. This growth occurred in media containing formate as the electron donor and either fumarate or sulfate as the electron acceptor. As determined by electron microscopy with energy-dispersive X-ray analysis, selenate and selenite were reduced to elemental selenium which accumulated inside the cells. Selenium granules resulting from selenite metabolism were cytoplasmic while granules of selenium resulting from selenate reduction appeared to be in the periplasmic region. The accumulation of red elemental selenium in the media following stationary phase resulted from cell lysis with the liberation of selenium granules. Growth did not occur with either selenate or selenite as the electron acceptor and¹³C nuclear magnetic resonance indicated that neither selenium oxyanion interfered with fumarate respiration. At 1 M selenate and 100 M selenite, reduction byD. desulfuricans was 95% and 97%, respectively. The high level of total selenate and selenite reduced indicated the suitability ofD. desulfuricans for selenium detoxification.     

Extracellular reduction of selenite by a novel marine photosynthetic bacterium

A novel purple nonsulfur bacterium strain NKPB030619, which has resistance to over 5 mM selenite, was isolated from a marine environment. An initial concentration of 1.1 mM selenite, added to the medium, was decreased to under 0.05 mM within 5 days. The color of the cell suspension turned red within 2 days. The red coloration gradually decreased and black precipitates appeared during 2 weeks of cultivation. Under these conditions, two main types of deposit were formed extracellularly. These deposits were thought to contain red amorphous selenium and black vitreous selenium. The selenite reduction to elemental selenium in this bacterium was induced by the introduction of light and l-malic acid under anaerobic conditions. These results suggest that selenite reduction is coupled with photosynthesis and l-malic acid can serve as the indirect electron donor for its reduction. Phylogenetic analysis based on the 16S rDNA sequence showed that NKPB0360619 belongs to the α subdivision of Proteobacteria and is classified into the Rhodobacter species. The highest similarity of 86.2% was observed with R. sphaeroides. Received: 13 August 1996 / Received last revision: 6 May 1997 / Accepted: 11 May 1997     

一株苯酚降解菌的分离与鉴定

目的：筛选能高效降解苯酚的微生物,并进行初步鉴定。方法：从某焦化厂排水沟采集污泥,通过逐步驯化筛选苯酚降解菌株;利用形态观察、生理生化检测、16SrDNA序列分析进行初步鉴定。结果：筛选获得1株苯酚降解菌JDM-2—1,该菌能够以苯酚为惟一碳源,耐酚能力高达2200mg／L,在30℃和pH7．0条件下,42h内能将800mg／L的苯酚彻底降解;初步鉴定其为球形芽孢杆菌（Bacillus sphaericus）。结论：菌株JDM-2-1是一株高效降解苯酚的球形芽孢杆菌。     

Biological effects of a nano red elemental selenium.

A novel selenium form, nano red elemental selenium (Nano-Se) was prepared by adding bovine serum albumin to the redox system of selenite and glutathione. Nano-Se has a 7-fold lower acute toxicity than sodium selenite in mice (LD(50) 113 and 15 mg Se/kg body weight respectively). In Se-deficient rat, both Nano-Se and selenite can increase tissue selenium and GPx activity. The biological activities of Nano-Se and selenite were compared in terms of cell proliferation, enzyme induction and protection against free racial-mediated damage in human hepatoma HepG2 cells. Nano-Se and selenite are similarly cell growth inhibited and stimulated synthesis of glutathione peroxidase (GPx), phospholipid hydroperoxide glutathione peroxidase (PHGPx) and thioredoxin reductase (TR). When HepG2 cells were co-treated with selenium and glutathione, Nano-Se showed less pro-oxidative effects than selenite, as measured by cell growth. These results demonstrate that Nano-Se has a similar bioavailability in the rat and antioxidant effects on cells.     

一株纤维素降解细菌的筛选、鉴定及产酶条件分析

目的筛选高活性的纤维素降解细菌,并进行初步鉴定和产纤维素酶条件分析。方法采集吉首旗帜山松树林的土壤样品,通过富集培养和刚果红平板染色法筛选分离纤维素降解细菌;通过形态观察、生理生化特性检测和基于16S rRNA基因序列的系统发育分析对分离的菌株进行初步鉴定。利用单因素实验对产纤维素酶条件进行优化。结果分离获得1株高活性纤维素降解细菌JDM11,初步鉴定其为Bacillus velezensis;菌株JMD11产纤维素酶最佳培养温度、最适初始pH和培养时间分别为28℃、7.0～7.5和32h,在该条件下其滤纸酶(FPase)和羧甲基纤维素酶(CMCase)活力分别为260.32U/ml和651.75U/ml。结论菌株JDM11是1株高活性纤维素降解的Bacillus velezensis。     

利用-碳化合物(C1)细菌的分离及基因组文库的构建

从污水样品中筛选到能利用甲醇的菌株B,经16SrDNA测序分析鉴定为肺炎克氏杆菌（Klebsiella pneuumo-niae）。甲醛耐受能力的测试表明该菌对甲醛具有较强耐受能力,能在含有8～15mm。l／L甲醛的LB培养基上生长。S0uthem杂交分析说明这菌株的基因组中有甲基营养菌6-酸己酮糖合成酶（HPS）和6-磷酸果糖异构酶（PHI）基因的同源序列。本研究以pUC118为载体构建了基因组文库,进一步检测结果说明所构建的基因组文库质量符合要求。     

一株苯胺降解菌的分离及其苯胺降解特性的研究

目的:筛选高效苯胺降解菌并研究其降解特性,为利用微生物进行苯胺环境污染物修复奠定基础.方法:利用含苯胺的A15培养基分离筛选苯胺降解菌,探讨苯胺降解最佳条件、降解代谢途径,利用16S rDNA基因扩增测序法对株菌进行分子鉴定.结果:获得了一株以苯胺为惟一碳源、氮源生长的高效苯胺降解菌AN6-4.该菌降解苯胺的最高浓度为2500mg/L,降解苯胺的最适温度和pH值分别为30℃、7.0;该菌在60h内可以将1500mg/L浓度的苯胺完全降解;重金属离子对该菌株降解苯胺有不同程度的抑制作用;代谢机制研究表明,该菌株可以诱导合成邻苯二酚-2,3-双加氧酶并分泌到胞外降解苯胺;16S rDNA基因序列同源性比较结果表明该菌属芽孢杆菌的一种.结论:所获得的苯胺降解菌对于研究苯胺降解机制和苯胺环境污染物的生物修复具有重要的理论和潜在应用价值.