Hg2+、Pd2+、Cd2+和Cu2+对沼泽红假单胞菌生长及净化氮、磷能力的影响

研究了在培养基中分别添加不同浓度的重金属离子Hg2+、Pd2+、Cd2+和Cu2+作为人工配制的污水对光合细菌沼泽红假单胞菌生长与净化PO4-P和NH4-N能力的影响.实验结果表明当培养基中Hg2+的浓度达到2×10-6mol@L-1,该菌生长趋势开始减慢;当增至4×10-6mol@L-1时,生长完全被抑制.Cu2+的浓度达到1×10-6mol@L-1,该菌生长趋势也开始减慢;当增至8×10-6mol@L-1时生长完全被抑制.Cd2+的浓度达4×10-5mol@L-1时,其延缓期大大延长;增至16×10-5mol@L-4时生长完全被抑制.培养基中Pd2+的浓度达到8×10-4mol@L-1时,对该菌生长并未产生影响.当培养基中重金属离子浓度未达到完全抑制其生长时,对其净化PO4-P和NH4-N能力的影响不显著.     

培养基成分对杜仲愈伤组织生长及次生代谢产物含量的影响

以Bs＋0．5mg／L NAA＋0．5mg／L BA为基本培养基,研究了B5培养基中8种主要无机盐浓度对杜仲愈伤组织生长及绿原酸和总黄酮两种次生代谢产物含量的影响。结果表明：在1000～5000mg／L范围内增加培养基中KNO3的含量有利于愈伤组织生长,B5培养基中当KNO3的浓度达到2／3时,绿原酸和总黄酮含量及产量最高;(NH4)2SO4以4／3原浓度时对愈伤组织生长量、总黄酮含量及产量最高,对绿原酸的含量则是其为原浓度的1／3时最高;MgSO4以2／3浓度对生长量及1／3浓度对绿原酸、总黄酮积累最高;NaH2PO4、CaCl2和MnSO4以原浓度的愈伤组织生长和次生代谢产物合成最好;ZnSO4和FeSO4的原浓度愈伤组织的生长量最大,而1／3浓度的绿原酸和总黄酮含量最高。     

药用植物红根草种质资源的离体保存

以红根草试管苗为材料,研究了不同培养基(MS、1/2MS、1/4MS)、蔗糖浓度和植物生长抑制剂(CCC、PP333、ABA、MH)在红根草试管苗保存中的作用。结果表明:培养基1/2MS对红根草保存最好,保存270d后存活率最高。培养基中不添加蔗糖较添加一定浓度蔗糖时植株的形态和色泽差,但保存时间更长,转继代后能正常恢复生长。添加生长抑制剂能减缓生长速度,延长保存时间,最佳浓度分别为:CCC1.2～1.6mg/L;PP3331.6mg/L;ABA0.5～4.0mg/L;MH0.5mg/L。其中,ABA0.5～4.0mg/L对植株的生长最好,CCC浓度为1.2mg/L和1.6mg/L时,保存时间长,360d时,存活率达90%。     

蔗糖浓度对三裂叶野葛毛状根生长及其次生物质产生的影响

本文研究了蔗糖浓度对发根农杆菌ATCC15834诱导产生的三裂叶野葛毛状根生长及其葛根素和异黄酮类化合物产生的影响以及液体培养基中蔗糖的消耗变化.结果表明毛状根在含5%、4%、3%和2%蔗糖的MS培养基中培养16天后的干重增殖倍数分别为11.7、11.9、10.1和5.9;其中尤以3%的蔗糖浓度最有利于毛状根中异黄酮类化合物及葛根素的积累;培养12天后,毛状根的葛根素含量达到最高,约5.147mg/g DW;而其异黄酮类化合物的含量则在培养16天后达到最高,约27.76mg/g DW.在毛状根液体培养过程中培养基的蔗糖浓度随着毛状根的生长而降低,其消耗速率与毛状根的生长速度及其可溶性总糖含量成正比.毛状根的可溶性总糖含量在培养12天时达到最高,而培养16天后培养基中的蔗糖消耗完毕.     

除虫菊细胞的悬浮培养

除虫菊悬浮细胞从培养后第8天开始迅速生长,14 d达到最大生长量,其最适培养基为:MS 4mg·L-12,4-D 0.1mg·L-1NAA 0.3 mg·L-16-BA 30 g·L-1蔗糖,最适接种量为15 g·L-1,摇瓶装液的体积分数为40%,初始培养的最适pH值为5.8,收获时pH下降为4.6±1,最适培养温度为25℃.     

不同浓度IAA对微藻TH6（Oedocladium sp．）生长及脂肪酸含量的影响

研究了在BG11液体培养基中添加0.1～1.5 mg·L-1 IAA对微藻TH6(Oedocladium sp. )生长和脂肪酸含量的影响.结果表明,随培养时间的延长,微藻TH6的生长量逐渐增加;与对照相比,添加不同浓度IAA对微藻TH6的生长均有不同程度的促进作用,其中添加1.0 mg·L-1 IAA对微藻TH6生长的促进效果最佳,至培养第33天,微藻TH6的生长量比对照提高了44.34%.在培养基中添加IAA均能不同程度提高微藻TH6的总脂肪酸含量,当IAA 浓度为0.1、0.5、1.0和1.5 mg·L-1时,总脂肪酸含量分别是对照的2.09、2.13、2.41和1.73倍.IAA对微藻TH6中软脂酸、硬脂酸、亚油酸和油酸含量的影响作用不同.添加不同浓度IAA均能不同程度提高软脂酸的含量,当IAA浓度为1.0 mg·L-1时,软脂酸的相对含量最高,达到了28.62%;较高浓度的IAA(1.0和1.5 mg·L-1)能促进硬脂酸含量的提高, 低浓度IAA(0.1和0.5 mg·L-1)使硬脂酸含量降低;当IAA浓度为0.1～1.0 mg·L-1时,亚油酸含量较对照有不同程度提高;IAA对油酸含量的影响作用不明显.研究结果显示,含有1.0 mg·L-1 IAA的BG11液体培养基为微藻TH6的最佳液体培养基.在这一培养基中,微藻TH6的总脂肪酸含量最高,饱和及不饱和脂肪酸含量也较高,且微藻TH6生长量最大,可作为生物柴油资源进一步研究和开发.     

蔗糖浓度对三裂叶野葛毛状根生长及其次生物质产生的影响

本文研究了蔗糖浓度对发根农杆菌ATCC15834诱导产生的三裂叶野葛毛状根生长及其葛根素和异黄酮类化合物产生的影响以及液体培养基中蔗糖的消耗变化。结果表明：毛状根在含5％、4％、3％和2％蔗糖的MS培养基中培养16天后的干重增殖倍数分别为11．7、11．9、10．1和5．9;其中尤以3％的蔗糖浓度最有利于毛状根中异黄酮类化合物及葛根素的积累;培养12天后,毛状根的葛根素含量达到最高,约5．147mg／gDW;而其异黄酮类化合物的含量则在培养16天后达到最高,约27．76mg／gDW。在毛状根液体培养过程中培养基的蔗糖浓度随着毛状根的生长而降低,其消耗速率与毛状根的生长速度及其可溶性总糖含量成正比。毛状根的可溶性总糖含量在培养12天时达到最高,而培养16天后培养基中的蔗糖消耗完毕。     

纤维素分解混合菌的扩繁条件研究

目的:开发纤维素分解混合菌制剂。方法:以菌数、纤维素酶活性及木聚糖酶活性做为评价指标,对具有开发潜力的菌群进行了培养条件研究。结果:该菌群的最适培养温度为35℃;最适接种量为1%;培养基的初始pH值以7.0-7.5为好;在培养基中添加一定量的FeSO4,有利于菌的生长;适当控制氧气浓度,可以确保混合菌群中纤维素酶产生菌的正常繁殖。结论:获得了纤维素分解混合菌的扩繁条件。     

象白蚁肠道中一个纤维素降解菌群的分离和特性研究

利用滤纸培养基从象白蚁(Nasutitermes sp.)肠道中分离出一个具有纤维素降解能力,能够降解滤纸的混合菌群。在起始pH 6.5,37℃培养条件下培养6d可得到最高的纤维素酶(CMCase和FPase)活性。在优化条件下,混合菌群的滤纸降解率在第15d达到最大值66.3%,显示出较高的滤纸降解效率。酶谱活性染色分析显示,混合菌群在以滤纸为唯一碳源的生长过程中至少表达了8种内切葡聚糖酶和4种木聚糖酶。扫描电镜观察到该混合菌群包含短杆状和球形两种形态的细菌。基于16SrRNA基因的系统发育分析表明,该混合菌群中至少存在两种细菌,分别属于沙雷氏菌属(Serratia)和类芽胞杆菌属(Paenibacillus)。这两种细菌协同降解纤维素的机制值得进一步深入研究。     

甘蔗茎内两个内生菌株16S rRNA 序列分析及其生长特性

从两个甘蔗品种GT11和RB86-7515表面灭菌的茎中分离到两株具有固氮活性的菌株,分别编号为B11S和B8S.利用16S rRNA序列分析对其进行鉴定,并对两个菌株的生物学特性进行了比较.结果表明:B11S菌株与Stenotrophomonas maltophili菌株处在同一个分支,其序列与多个Stenotrophomonas maltophili菌株的序列相似性都达到98%以上,菌株B8S与多个土壤杆菌属细菌的序列相似性达到100%;两个菌株在温度31℃、pH为6左右时生长量最高;温度31℃、pH为6.5～7.0时固氮酶活性最高;相同浓度的蔗糖生长量大于葡萄糖,且表达固氮酶活性也最强;添加一定量的氮素有利于细菌生长和固氮酶活性的表达,但随着N含量的增加,抑制作用越来越明显.     

Isolation and Characterization of Iron and Sulfur-Oxidizing Bacteria from Maiduk Copper Mine at Shahrbabk Province in Iran

Microbial oxidation of iron and sulfur are important steps in biogeochemical cycles in mining environments. The aim of this study was the enrichment and identification of two important groups of bacteria that are involved in bioleaching of copper ores. Some soil samples were collected from the Maiduk copper mine. Iron-oxidizing bacteria were enriched in 9K medium containing ferrous sulfate, and sulfur oxidizers were enriched in 9K medium containing powdered sulfur instead of ferrous sulfate as energy source. After three subcultures, autotrophic bacteria were isolated on 9K agarose medium with appropriate energy sources. The autotrophic bacteria from the enrichments were identified by amplification of 16S rRNA gene and sequencing. Bioleaching experiments were performed in 100 ml of 9K medium containing 5 g of low-grade copper ore instead of ferrous sulfate. Twelve different iron and sulfur-oxidizing bacteria were isolated from the collected soil samples of Maiduk copper mine. Molecular identification indicated that two prevalent strains in the ore enrichments could be assigned to the Acidithiobacillus ferooxidans strain HGM and the Thiobacillus thioparus strain HGE. These two strains reached their logarithmic phase of growth after 8 days of incubation in their respective media at 30°C. Of these two cultures, strain HGM leached more copper ore (300 ppm) from the Maiduk copper ore than did strain HGE (200 ppm). Application of these two strains to the Maiduk copper ore in situ and to ore heaps should improve the leaching process.     

The effects of Fe(II) and Fe(III) concentration and initial pH on microbial leaching of low-grade sphalerite ore in a column reactor

In this study the effects of initial concentration of Fe(II) and Fe(III) ions as well as initial pH on the bioleaching of a low-grade sphalerite ore in a leaching column over a period of 120 days with and without bacteria were investigated. Four different modifications of medium were used as column feed solutions to investigate the effects of initial concentration of Fe(II) and Fe(III) ions on zinc extraction. The experiments were carried out using a bench-scale, column leaching reactor, which was inoculated with mesophilic iron oxidizing bacteria, Acidithiobacillus ferrooxidans, initially isolated from the Sarcheshmeh chalcopyrite concentrate (Kerman, Iran). The effluent solutions were periodically analyzed for Zn, total Fe, Fe(II) and Fe(III) concentrations as well as pH values. Bacterial population was measured in the solution (free cells). Maximum zinc recovery in the column was achieved about 76% using medium free of initial ferrous ion and 11.4 g/L of ferric ion (medium 2) at pH 1.5. The extent of leaching of sphalerite ore with bacteria was significantly higher than that without bacteria (control) in the presence of ferrous ions. Fe(III) had a strong influence in zinc extraction, and did not adversely affect the growth of the bacteria population.     

光合细菌对小麦生长和光合功能的影响

【目的】探明光合细菌对小麦生长、产量及光合功能的影响。【方法】以尧麦16为材料,在不同生长时期施用光合细菌,研究光合细菌对小麦生长、产量及光合功能的影响。【结果】光合细菌培养液的不同成分可提高小麦旗叶SPAD值、光合速率及干物质积累。拔节期施用后,混合菌液对叶片SPAD含量促进作用最大,较不施用对照提高33.6%,小麦干物质积累较对照增加25.7%,单株籽粒重量增效为14.3%。单菌株实验处理中沼泽红假单胞菌促进作用最强,干物质积累和单株籽粒重量较培养基稀释液对照增效均为13.1%。不同施用时期的结果表明沼泽红假单胞菌对灌浆期和拔节期小麦促进效应最强,其中静息细胞可延长叶片功能期,使光合产物持续增加;无细胞培养液通过促进小麦营养生长,进而提高小麦产量。【结论】光合细菌可促进小麦生长,有效提高小麦生育过程中相关光合功能;施用时期应为小麦拔节期和灌浆期;光合细菌对小麦生长和产量促进作用是静息细胞和代谢活性物质综合作用的结果。     

Compositions of microbial communities in sulfide nickel ore waste piles

Bacterial communities of moderately acidic waste piles of sulfide nickel ore and of the nickel-leaching enrichments obtained from them are analyzed. The structure of bacterial communities was determined by molecular biological techniques. The PCR profiles of bacterial communities were obtained with the primers to a variable 433 bp site of the eubacterial 16S rRNA gene. The differences in community compositions were determined by comparison of their DGGE profiles. Sequencing of the DNA fragments was then carried out and the results were compared with the GenBank gene sequences. Analysis of the 16S rRNA gene sequences revealed few bacterial genera in the moderately acidic waste piles of sulfide nickel ore, with predomination of Acidithiobacillus sp. and Leptospirillum sp. A number of the bacteria revealed belonged to the species never obtained in pure culture. Molecular biological analysis showed the presence of the same groups of bacteria in enriched cultures obtained by inoculating the liquid medium containing ground ore with the waste pile samples (5 : 1). The geochemical activity of these bacteria was confirmed by their capacity for leaching nickel from the sulfide ore in enriched cultures, resulting in nickel solubilization. Thus, new information was obtained concerning the structure composition of the bacterial communities of sulfide ore waste piles: the dominant forms were determined, their leaching activity was confirmed, and the activity of thiobacilli from the waste, which have not been isolated in pure cultures, was confirmed in liquid medium in the presence of ore.     

Effect of anions on selective solubilization of zinc and copper in bacterial leaching of sulfide ores

Bacterial leaching of sulfide ores using Thiobacillus ferrooxidans, Thiobacillus thiooxidans, or a combination of the two was studied at various concentrations of specific anions. Selective zinc and copper solubilization was obtained by inhibiting iron oxidation without affecting sulfur/sulfide oxidation. Phosphate reduced iron solubilization from a pyrite (FeS(2))-sphalerite (ZnS) mixture without significantly affecting zinc solubilization. Copper leaching from a chalcopyrite (CuFeS(2))-sphalerite mixture was stimulated by phosphate, whereas chloride accelerated zinc extraction. In a complex sulfide ore containing pyrite, chalcopyrite, and sphalerite, both phosphate and chloride reduced iron solubilization and increased copper extraction, whereas only chloride stimulated zinc extraction. Maximum leaching obtained was 100% zinc and 50% copper. Time-course studies of copper and zinc solubilization suggest the possibility of selective metal recovery following treatment with specific anions.     

Inhibitory effects of titanium (III) citrate on enumeration of bacteria from rumen contents.

Titanium citrate (TC) or L-cysteine-sodium sulfide was added as a reducing agent to buffers and agar media used for enumeration of bacteria from rumen contents of high-forage-fed steers. Approximately equal colony counts were found on TC and L-cysteine-sodium sulfide-reduced media with rumen contents taken 8 h postfeeding, when active bacterial growth was occurring. The colony counts on TC medium were only 56% of those with L-cysteine-sodium sulfide medium with rumen contents taken 1 h prefeeding when bacterial growth was minimal. When colonies from L-cysteine-sodium sulfide medium were transferred to TC medium and vice versa, almost all colonies grew. The data indicate that TC can be inhibitory to bacteria upon their initial isolation from natural habitats, particularly when growth rates are low in these habitats.     

Bioleaching of zinc sulfide concentrate by Thiobacillus ferrooxidans

The kinetics of the bioleaching of ZnS concentrate by Thiobacillus ferrooxidans was studied in a well-mixed batch reactor. Experimental studies were made at 30 degrees C and pH 2.2 on adsorption of the bacteria to the mineral, ferric iron leaching, and bacterial leaching. The adsorption rate of the bacteria was fairly rapid in comparison with the bioleaching rate, indicating that the bacterial adsorption is at equilibrium during the leaching process. The adsorption equilibrium data were correlated by the Langmuir isotherm, which is a useful means for predicting the number of bacteria adsorbed on the mineral surface. The rate of chemical leaching varied with the concentration of ferric iron, and the first-order reaction rate constant was determined. Bioleaching in an iron-containing medium was found to take place by both direct bacterial attack on the sulfide mineral and indirect attack via ferric iron. In this case, the ferric iron was formed from the reaction product (ferrous iron) through the biological oxidation reaction. To develop rate expressions for the kinetics of bacterial growth and zinc leaching, the two bacterial actions were considered. The key parameters appearing in the rate equations, the growth yield and specific growth rate of adsorbed bacteria, were evaluated by curve fitting using the experimental data. This kinetic model allowed us to predict the liquid-phase concentrations of the leached zinc and free cells during the batch bioleaching process.     

Functional diversity of an aboriginal microbial community oxidizing the ore with high antimony content at 46–47°C

A procedure for rapid (7–10 days) obtaining of enrichment cultures of aboriginal thermoacidophilic microbial communities from ores with high antimony content (Sb 26%) was developed. This technique allows for rapid alkalization of the medium due to the abundance of calcites, as well as the low antioxidant status of the initial cells. The ore concentration in the medium was gradually increased to 10 g/l. In the course of this process, selection of enrichment cultures containing microbial strains preferentially oxidizing ore, S₀, or Fe²⁺ is carried out. A combination of three enrichment cultures allowed us to rapidly (in six days) adapt the aboriginal strains to high-density pulp (16%) in the reactor at 46°C, as well as to carry out a three-stage semi-continuous cultivation in the reactors at D = 0.0042 h⁻¹ and to isolate from each reactor the pure cultures of predominant bacteria involved in the process of bioleaching/oxidation of the mixture of antimonite-containing ores and sulfide flotation concentrates. It was demonstrated that, in the microbial community of reactor I, strain Sb-K exhibiting high rates of growth and initial substrate oxidation was predominant. In reactor II, strain Sb-F prevailed, showing a high substrate specificity with respect to Fe²⁺. A sulfur-oxidizing strain involved in active oxidation of reduced inorganic sulfur compounds (RISCs) was predominant in reactor III. Nevertheless, together, all three strains showed synergism and were able to oxidize S⁰, Fe²⁺, and sulfide minerals (including antimonite Sb₂S₃ in the presence of 0.02% yeast extract) in reactors. The strains differed from each other in their DNA restriction profiles, growth rates, and the rates of inorganic substrate oxidation under mixotrophic conditions. The phenotypic properties of all the studied isolates have a certain similarity to those of sulfobacilli.     

Consecutive zinc balance trials in growing rats

Rats were fed a purified egg white-based diet containing 5 ppm Cu and 2, 14, or 57 ppm Zn. Zinc and copper balances were determined for eight consecutive weekly trial periods. The zinc-deficient group almost ceased to gain weight and was in slightly negative zinc balance. Groups of rats fed 14 and 57 ppm Zn gained weight at equal rates. These groups were in strongly positive zinc balance for four weeks; thereafter, they fed 57 ppm Zn retained about two times as much zinc as did the group fed the diet containing 14 ppm Zn. All groups were in null or slightly negative copper balance throughout the trial. These results suggest that zinc accumulation may be homeostatically controlled to a level in excess of that needed for maximum growth.     

The Effect of the Facultative Chemolithotrophic Bacterium Thiobacillus acidophilus on the Leaching of Low-Grade Cu-Ni Sulfide Ore by Thiobacillus ferrooxidans

The purpose of this investigation was to determine the effect of Thiobacillus acidophilus on the leaching of a low-grade Cu-Ni sulfide ore by Thiobacillus ferrooxidans. A sample of low-grade Cu-Ni sulfide ore containing 0.36% Cu, 0.48% Ni, and 7.87% Fe was pulverized and initially leached for a 21-day period using two different pure cultures of T. ferrooxidans, an environmental strain (F2) and a strain from the American Type Culture Collection (ATCC 23270). Samples of the ore slurries were drawn and the pH was monitored over the course of the leaching period. The concentrations of Cu and Ni leached by each strain were determined and compared. No significant differences were observed in the concentrations of Cu and Ni leached by the two pure cultures of T. ferrooxidans. Subsequently, the ore was leached with mixed cultures of T. ferrooxidans and T. acidophilus to determine the effect of the latter on the concentrations of Cu and Ni leached from the ore. The environmental strain F2 of T. ferrooxidans was used in combination with both a type strain (ATCC 27807) and an environmental strain (64) of T. acidophilus. After 21 days, the mixed cultures of T. ferrooxidans and T. acidophilus leached significantly greater amounts of copper than the pure strain alone, but no such difference was observed for the leaching of nickel.