Microorganisms capable of metabolizing the herbicide metolachlor.

We screened several strains of microorganisms and microbial populations for their ability to mineralize or transform the herbicide metolachlor [2-chloro-N-(2-ethyl-6-methylphenyl)-N-(2-methoxy-1-methylethyl)-acetami de] because such cultures would potentially be useful in the cleanup of contaminated sites. Although we used various inocula and enrichment culture techniques, we were not able to isolate microorganisms that could mineralize metolachlor. However, strains of Bacillus circulans, Bacillus megaterium, Fusarium sp., Mucor racemosus, and an actinomycete were found to transform metolachlor. Several metabolites could be determined with high-performance liquid chromatography. The tolerance of the strains to high concentrations of metolachlor was also evaluated for the usefulness of the strains for decontamination. Tolerance of the actinomycete to metolachlor concentrations over 200 ppm (200 micrograms/ml) was low and could not be increased by doubling the sucrose concentration in the growth medium or by using a large biomass as inoculum. However, a Fusarium sp. could grow and transform metolachlor up to a concentration of 300 ppm.     

Identifying human cells capable of metabolizing various classes of carcinogens

Human cells that appear capable of metabolizing various classes of carcinogens have been identified using one of two methods: metabolism of tritiated benzo(a)pyrene to aqueous-acetone soluble forms or inhibition of cellular DNA synthesis. Each of the assay systems was optimized and the results on 15 human epithelial cell lines were compared. One or more cell lines were found to activate each of four classes of carcinogens examined: polycyclic hydrocarbons, aromatic amines, heterocyclic hydrocarbons, and nitrosamines. Cells that appeared capable of metabolizing polycyclic hydrocarbons or aromatic amines by these methods were also found to produce metabolites which were cytotoxic to cocultivated human xeroderma pigmentosum fibroblasts after a 48-hr exposure to the carcinogen.     

Isolation and characterization of Enterobacter cloacae capable of metabolizing asparagine

A gram-negative, rod-shaped bacterium capable of utilizing l-asparagine as its sole source of carbon and nitrogen was isolated from soil and identified as Enterobacter cloacae. An intracellularly expressed l-asparaginase was detected and it deaminated l-asparagine to aspartic acid and ammonia. High-pressure liquid chromatography analysis of a cell-free asparaginase reaction mixture indicated that 2.8 mM l-asparagine was hydrolyzed to 2.2 and 2.8 mM aspartic acid and ammonia, respectively, within 20 min of incubation. High asparaginase activity was found in cells cultured on l-fructose, d-galactose, saccharose, or maltose, and in cells cultured on l-asparagine as the sole nitrogen source. The pH and temperature optimum of l-asparaginase was 8.5 and 37–42 °C, respectively. The half-life of the enzyme at 30 °C and 37 °C was 10 and 8 h, respectively. Received: 19 February 1998 / Received last revision: 4 June 1998 / Accepted: 10 July 1998     

Microorganisms associated with the retting of flax treated with the herbicide glyphosate

Greater numbers of fungi were isolated from stems of flax following treatment with the herbicide glyphosate than from untreated stems although there was also a general increase in numbers with time. The fungal genera isolated were the same from both treated and untreated plants, the most common being Cladosporium, Aureobasidium, Epicoccum and Botrytis with Cladosporium being predominant. Populations of bacteria were generally not enhanced after glyphosate treatment. Partial dew-retting of crops resulted in the reduction in numbers of Cladosporium compared with conventionally-treated flax. The increase in numbers of fungi was associated with an increase in retting. Overretting also occurred, particularly in discrete pale areas on the stem. These were associated with colonisation by Botrytis cinerea and the tensile strength of fibres from these areas was 15 times weaker than from surrounding darker areas of the stem. Light microscopy showed death of cells after glyphosate application, followed by invasion and degradation of the epidermis and cortex by fungi and other microorganisms. Fibre bundles were partially dissociated but the individual fibres remained largely intact as did the xylem and medulla.     

Isolation and characterization of bacteria capable of metabolizing lignin-derived low molecular weight compounds

Lignin, a major component of biomass, composed of homogeneous phenolic monomers and functions as a synthetic precursor in the production of specialty chemicals or polymers. In this study, bacterial strains that metabolize lignin-derived low molecular weight compounds (LLCs) were cultured which are capable of LLC bioconversion. We used an LLC mixture primarily composed of vanillin (VL), syringaldehyde (SA), vanillic acid (VA) and p-hydroxybenzoic acid which were prepared from a commercial alkaline lignin product. Enrichment culture was repeated twice in a medium containing the soil sample, the LLCs and inorganic salts. Three bacterial strains belonging to the genera Pseudomonas, Ochrobactrum, and Klebsiella were isolated. We found that only VL, SA, and VA were metabolized by the Pseudomonas strain, which was then found to grow in a medium with VL or VA as the sole source of carbon and energy. The VL isomers, namely, ovanillin and isovanillin were converted to the corresponding carboxylic acids but were not utilized as carbon sources by Pseudomonas. VL and VA are intermediates in the pathway of bacterial degradation of eugenol via ferulic acid. Several bacterial strains that metabolize VL, eugenol, and ferulic acid have been reported but such strains are rarely isolated from enrichment culture medium containing LLCs, due to insufficient induction by the precursors in the LLC medium. In this study, we demonstrated that the microorganisms involved in the bioconversion of LLCs can be isolated from simple enrichment culture.     

可降解新烟碱类杀虫剂微生物及其代谢途径的研究进展

新烟碱类化合物基于烟碱结构改造修饰制备,相较菊酯、含磷类等杀虫剂,因其选择性毒力被认为是一类对人类和生态无害的农药。然而,近年来由于新烟碱类杀虫剂(neonicotinoid insecticides)过度施用,其残余或转化的物质通过在土壤与水体中累积,影响昆虫甚至哺乳动物及其生理与行为,导致了一系列生态环境问题和继发危害。本文聚焦新烟碱类杀虫剂的产业现状,面向生物降解新烟碱类杀虫剂这一迫切需求,围绕新烟碱类杀虫剂的微生物菌株资源,重点阐述微生物降解新烟碱类杀虫剂的代谢机制及其多样性。通过梳理新烟碱类杀虫剂生物降解及其应用转化的关键问题和前沿进展,旨在为借助合成生物学和宏基因组学手段建立或筛选安全可控的新烟碱类杀虫剂的高效转化体系提供参考。     

Bacillus aryabhattai FACU: A promising bacterial strain capable of manipulate the glyphosate herbicide residues

Glyphosate is a commonly used organophosphate herbicide that has an adverse impact on humans, mammals and soil microbial ecosystems. The redundant utilize of glyphosate to control weed growth cause the pollution of the soil environment by this chemical. The discharge of glyphosate in the agricultural drainage can also cause serious environmental damage and water pollution problems. Therefore, it is important to develop methods for enhancing glyphosate degradation in the soil through bioremediation. In this study, thirty bacterial isolates were selected from an agro-industrial zone located in Sadat City of Monufia Governorate, Egypt. The isolates were able to grow in LB medium supplemented with 7.2 mg/ml glyphosate. Ten isolates only had the ability to grow in a medium containing different concentrations of glyphosate (50, 100, 150, 200 and 250 mg/ml). The FACU3 bacterial isolate showed the highest CFU in the different concentrations of glyphosate. The FACU3 isolate was Gram-positive, spore-forming and rod-shape bacteria. Based on API 50 CHB/E medium kit, biochemical properties and 16S rRNA gene sequencing, the FACU3 isolate was identified as Bacillus aryabhattai. Different bioinformatics tools, including multiple sequence alignment (MSA), basic local alignment search tool (BLAST) and primer alignment, were used to design specific primers for goxB gene amplification and isolation. The goxB gene encodes FAD-dependent glyphosate oxidase enzyme that responsible for biodegradation process. The selected primers were successfully used to amplify the goxB gene from Bacillus aryabhattai FACU3. The results indicated that the Bacillus aryabhattai FACU3 can be utilized in glyphosate-contaminated environments for bioremediation. According to our knowledge, this is the first time to isolate of FAD-dependent glyphosate oxidase (goxB) gene from Bacillus aryabhattai.     

可代谢半乳糖嗜热链球菌的诱变选育及其在发酵乳生产中的应用

【目的】嗜热链球菌(Streptococcus thermophilus)作为酸奶、奶酪等发酵乳制品的常用发酵剂,在乳品工业中应用广泛。大多数嗜热链球菌为半乳糖阴性(Gal^-)菌株,不能代谢半乳糖而将其排出到胞外,导致发酵乳中半乳糖含量增加。因此可通过化学诱变的方法处理嗜热链球菌,使其可代谢半乳糖,开发一种低半乳糖含量的发酵乳。【方法】利用亚硝基胍(nitrosoguanidine, NTG)对嗜热链球菌IMAU80846进行诱变处理,测定野生株嗜热链球菌IMAU80846与突变株β-半乳糖苷酶(β-galactosidase,β-Gal)、半乳糖激酶(galactokinase, GalK)、丙酮酸激酶(pyruvate kinase, PK)和葡萄糖激酶(glucokinase, GK)活性,分析编码这些酶的氨基酸序列,得到一株可代谢半乳糖的嗜热链球菌IMAU80846Y,同时对突变株进行全基因组测序,并检测野生株和突变株发酵乳中乳酸、乳糖、半乳糖和葡萄糖的含量,最后将野生株和突变株分别与德氏乳杆菌保加利亚亚种IMAU20450进行复配发酵,测定两组发酵乳在发酵与贮藏期间的发酵特性,制备一款低半乳糖含量的发酵乳。【结果】突变株嗜热链球菌IMAU80846Y的β-Gal、GalK活性高于野生株,PK和GK活性低于野生株,氨基酸序列与全基因组测序结果表明突变株与糖代谢有关基因发生突变,HPLC检测结果表明突变株发酵乳中乳糖、半乳糖的含量均低于野生株,而乳酸、葡萄糖的含量高于野生株。发酵特性的分析结果表明,与野生株复配组相比,突变株复配组发酵乳具有良好的滴定酸度、活菌数、黏度以及持水力。【结论】嗜热链球菌IMAU80846经NTG诱变后,菌株代谢半乳糖的能力发生了变化,利用该突变株可生产一款低半乳糖含量的发酵乳。     

Lifespan and stress resistance of Caenorhabditis elegans are increased by expression of glutathione transferases capable of metabolizing the lipid peroxidation product 4-hydroxynonenal

Caenorhabditis elegans expresses a glutathione transferase (GST) belonging to the Pi class, for which we propose the name CeGSTP2-2. CeGSTP2-2 (the product of the gst-10 gene) has the ability to conjugate the lipid peroxidation product 4-hydroxynonenal (4-HNE). Transgenic C. elegans strains were generated in which the 5'-flanking region and promoter of gst-10 were placed upstream of gst-10 and mGsta4 cDNAs, respectively. mGsta4 encodes the murine mGSTA4-4, an enzyme with particularly high catalytic efficiency for 4-HNE. The localization of both transgenes was similar to that of native CeGSTP2-2. The 4-HNE-conjugating activity in worm lysates increased in the order: control相似文献   

Quantification of toxic effects of the herbicide metolachlor on marine microalgae Ditylum brightwellii (Bacillariophyceae), Prorocentrum minimum (Dinophyceae), and Tetraselmis suecica (Chlorophyceae)

Toxic effects of the herbicide metolachlor (MC) were evaluated for three marine microalgae, Tetraselmis suecica (chlorophyte), Ditylum brightwellii (diatom), and Prorocentrum minimum (dinoflagellate). MC showed a significant reduction in cell counts and chlorophyll a levels. Median effective concentration (EC₅₀) was calculated based on chlorophyll a levels after a 72-h MC exposure. EC₅₀ values for T. suecica, D. brightwellii, and P. minimum were 21.3, 0.423, and 0.07 mg/L, respectively. These values showed that the dinoflagellate was most sensitive when exposed to the herbicide, at a concentration comparable to freshwater algae, suggesting its potential as an appropriate model organism for ecotoxicity assessments in marine environments.     

Effect of herbicide adjuvants on the biodegradation rate of the methylthiotriazine herbicide prometryn

A microbial community, selected by its ability to degrade triazinic herbicides was acclimatized by successive transfers in batch cultures. Initially, its ability to degrade prometryn, was evaluated using free cells or cells attached to fragments of a porous support. As carbon, nitrogen and sulfur sources, prometryn, (98.8 % purity), or Gesagard, a herbicide formulation containing 44.5 % prometryn and 65.5 % of adjuvants, were used. In batch cultures, a considerable delay in the degradation of prometryn, presumptively caused by the elevated concentration of inhibitory adjuvants, occurred. When pure prometryn was used, volumetric removal rates remarkably higher than those obtained with the herbicide formulation were estimated by fitting the raw experimental data to sigmoidal decay models, and differentiating them. When the microbial consortium was immobilized in a continuously operated biofilm reactor, the negative effect of adjuvants on the rate and removal efficiency of prometryn could not be detected. Using the herbicide formulation, the consortium showed volumetric removal rates greater than 20 g m^?3 h^?1, with prometryn removal efficiencies of 100 %. The predominant bacterial strains isolated from the microbial consortium were Microbacterium sp., Enterobacter sp., Acinetobacter sp., and Flavobacterium sp. Finally, by comparison of the prometryn removal rates with others reported in the literature, it can be concluded that the use of microbial consortia immobilized in a biofilm reactor operated in continuous regime offer better results than batch cultures of pure microbial strains.     

Microbiological degradation of the herbicide dicamba

Summary Pseudomonas paucimobilis was isolated from a consortium which was capable of degrading dicamba (3,6-dichloro-2-methoxybenzoic acid) as the sole source of carbon. The degradation of dicamba byP. paucimobilis and the consortium was examined over a range of substrate concentration, temperature, and pH. In the concentration range of 100–2000 mg dicamba L^–1 (0.5–9.0 mM), the degradation was accompanied by a stoichiometric release of 2 mol of Cl^– per mol of dicamba degraded. The cultures had an optimum pH 6.5–7.0 for dicamba degradation. Growth studies at 10°C, 20°C, and 30°C yielded activation energy values in the range of 19–36 kcal mol^–1 and an average Q₁₀ value of 4.0. Compared with the pure cultureP. paucimobilis, the consortium was more active at the lower temperature.     

Cloning and expression of the s-triazine hydrolase gene (trzA) from Rhodococcus corallinus and development of Rhodococcus recombinant strains capable of dealkylating and dechlorinating the herbicide atrazine.

We used degenerate oligodeoxyribonucleotides derived from the N-terminal sequence of the s-triazine hydrolase from Rhodococcus corallinus NRRL B-15444R in an amplification reaction to isolate a DNA segment containing a 57-bp fragment from the trzA gene. By using the nucleotide sequence of this fragment, a nondegenerate oligodeoxyribonucleotide was synthesized and used to screen a genomic library of R. corallinus DNA for fragments containing trzA. A 5.3-kb PstI fragment containing trzA was cloned, and the nucleotide sequence of a 2,450-bp region containing trzA was determined. No trzA expression was detected in Escherichia coli or several other gram-negative bacteria. The trzA gene was subcloned into a Rhodococcus-E. coli shuttle vector, pBS305, and transformed into several Rhodococcus strains. Expression of trzA was demonstrated in all Rhodococcus transformants. Rhodococcus sp. strain TE1, which possesses the catabolic gene (atrA) for the N-dealkylation of the herbicides atrazine and simazine, was able to dechlorinate the dealkylated metabolites of atrazine and simazine when carrying the trzA gene on a plasmid. A plasmid carrying both atrA and trzA was constructed and transformed into three atrA- and trzA-deficient Rhodococcus strains. Both genes were expressed in the transformants. The s-triazine hydrolase activity of the recombinant strains carrying the trzA plasmid were compared with that of the R. corallinus strain from which it was derived.     

Enantioselective toxicity of metolachlor to Scenedesmus obliquus in the presence of cyclodextrins

Cyclodextrins (CDs) possess a variety of chiral centers and are capable of recognizing enantiomeric molecules through the formation of inclusion complexes. Two types of CDs, α-cyclodextrin (α-CD) and β-cyclodextrin (β-CD), were selected to evaluate the effects of the enantioselective ecotoxicity of racemic metolachlor (Rac-metolachlor) and its S-enantiomer (S-metolachlor) on the freshwater algae Scenedesmus obliquus (S. obliquus) by acute toxicity test. The results showed that the aquatic toxicity of S-metolachlor was higher than Rac-metolachlor and that CDs enhanced the toxicity of metolachlor enantioselectively by increasing the aquatic toxicity of Rac-metolachlor rather than that of S-metolachlor to S. obliquus. The equilibrium constant for Rac-metolachlor-CD complexes was higher than that of S-metolachlor-CDs, which was responsible for the greater aquatic toxicity shift effect of Rac-metolachlor. Thermodynamic studies of CD complexes showed that inclusion for all of the complexes was primarily a spontaneous, enthalpy-driven process. These results will help to understand the preliminary mechanism of shifting aquatic toxicity of metolachlor by CDs and the CDs mediated environmental processes of metolachlor, to correctly apply CDs to chiral pesticides formulation and environmental remediation of chiral contaminants.     

黄土高原水体浮游微生物及沉积微生物研究进展

黄土高原跨越我国半干旱、干旱及半湿润地区,是世界上面积最大的黄土分布区。近些年来,由于气候变化和人类活动的加剧,黄土高原的河流湖库面临着水少、水浑、水污等威胁,因此亟需开展此区域水体的生态健康评价以提出生态保护和管理措施。除了鱼类、底栖动物和浮游植物生态学外,以微生物为核心的微生物生态学研究在环境现状指示、生态健康评价方面也占有重要作用。本文首先探讨黄土高原的范围及其水体的生态学研究进展,选择了黄土高原的"广义"划分区域(北纬33°41′～41°16′,东经100°54′～114°33′),其次整合国内外不同水体中浮游及沉积微生物的群落结构、功能及生物完整性指数(index of biological integrity, IBI)生态指示作用的相关研究,指出微生物群落结构、功能特征及IBI指数的动态变化是自然与人为因素综合作用的结果,同样也指示了生态、环境现状。目前,针对黄土高原微生物生态指示作用的研究主要集中于土壤环境中微生物群落结构指标,利用功能参数以及IBI指数进行生态指示的研究较少。黄土高原横跨7个省,范围广,面积大,未来针对黄土高原中部地带、西北地区核心——陕西省的河流湖库微生物进行研究能够以小见大,更全面地反映区域水生态系统健康状况。     

Cryopreservation of Microorganisms

Abstract

A great deal of recent interest has been shown in the ability of some microbes to synthesize exopolysaccharides. Most attention has been directed toward the prokaryote producers, yet many filamentous fungi also produce exopolysaccharides that have chemical and physical properties of considerable commercial potential. Surprisingly little is known about how and why fungi overproduce these metabolites and how yields are affected by both the physical and chemical environments. This review attempts to critically appraise the current literature on fungal exopolysaccharides, considers their chemical diversity, and examines factors that seem to affect their production. Although much of the published work has been carried out with the α-glucan pullulan, there is considerable literature on the β-glucans and, hence, both of these are discussed.