Degradation of the insecticide Hydramethylnon byPhanerochaete chrysosporium

The decomposition of the amidinohydrazone-type insecticide Hydramethylnon (HMN) by soil fungi has been investigated. A simple spectrophotometric method was developed for the estimation of HMN in soil and fungal culture media. HMN was found to be degraded in soil with a half life of 14 to 25 days.Degradation of HMN by the lignolytic fungus,Phanerochaete chrysosporium yielded two major breakdown products;p-(trifluoromethyl)-cinnamic acid (TFCA) andp-(trifluoromethyl)-benzoic acid (TFBA). TFCA was converted to TFBA which was subsequently metabolised via themeta-fission pathway. Fluoride release from HMN could not be detected.Abbreviations BzDAc benzene, dioxane, acetic acid (60: 36: 4) - DCM dichloroethane - DNPH 2,4-dinitro-phenylhydrazine - HMN Hydramethylnon - TDAc toluene, dioxane, acetic acid (90: 30: 1) - TFCA p-(trifluoromethyl)-cinnamic acid - TFBA p-(trifluoromethyl)-benzoic acid - TFP 1,5-bis(trifluoro-p-tolyl)-1,4-pentadien-3-one - VA veratryl alcohol     

Synergistic interaction between two bacterial isolates in the degradation of carbofuran

The dominant bacteriaPseudomonas sp. andArthrobacter sp. were isolated from the standing water of carbofuran-retreatedAzolla plot.Arthrobacter sp. hydrolysed carbofuran added to the mineral salts medium as a sole source of carbon and nitrogen while no degradation occurred withPseudomonas sp. Interestingly, when the medium containing carbofuran was inoculated with bothArthrobacter sp. andPseudomonas sp., a synergistic increase in its hydrolysis and subsequent release of CO₂ from the side chain was noticed. This synergistic interaction was better expressed at 25° C than at 35° C. Likewise, related carbamates, carbaryl, bendiocarb and carbosulfan were more rapidly degraded in the combined presence of both bacterial isolates.     

Aerobic,phenol-induced TCE degradation in completely mixed,continuous-culture reactors

BothPseudomonas putida F1 and a mixed culture were used to study TCE degradation in continuous culture under aerobic, non-methanotrophic conditions. TCE mass balance studies were performed with continuous culture reactors to determine the total percent removed in the reactors, and to quantify the percent removed by air stripping and biodegradation. Adsorption of TCE to biomass was assumed to be negligible. This research demonstrated the feasibility of treating TCE-contaminated water under aerobic, non-methanotrophic conditions with a mixed-culture, continuous-flow system.Initially glucose and acetate were fed as primary substrates. Pnenol, which has been shown to induce TCE-degrading enzymes, was fed at a much lower concentration (20mg/L). Little degradation of TCE was observed when acetate and glucose were the primary substrates. After omitting glucose and acetate from the feed and increasing the phenol concentration to 50mg/L, TCE biotransformation was observed at a significant level (46%). When the phenol concentration in the feed was increased to 420mg/L, 85% of the incoming TCE was estimated to have been biodegraded. Under the same conditions, phenol utilization by the mixed culture was greater than that ofP. putida F1, and TCE degradation by the mixed culture (85%) exceeded that ofP. putida F1 (55%). The estimated percent-of-TCE biodegraded by the mixed culture was consistently greater than 80% when phenol was fed at 420mg/L. Biodegradation of TCE was also observed in mixed-culture, batch experiments.     

Metabolic diversity of aromatic hydrocarbon-degrading bacteria from a petroleum-contaminated aquifer

We characterized bacteria from contaminated aquifers for their ability to utilize aromatic hydrocarbons under hypoxic (oxygen-limiting) conditions (initial dissolved oxygen concentration about 2 mg/l) with nitrate as an alternate electron acceptor. This is relevant to current intense efforts to establish favorable conditions forin situ bioremediation. Using samples of granular activated carbon slurries from an operating groundwater treatment system, we isolated bacteria that are able to use benzene, toluene, ethylbenzene, orp-xylene as their sole source of carbon under aerobic or hypoxic-denitrifying conditions. Direct isolation on solid medium incubated aerobically or hypoxically with the substrate supplied as vapor yielded 10³ to 10⁵ bacteria ml^–1 of slurry supernatant, with numbers varying little with respect to isolation substrate or conditions. More than sixty bacterial isolates that varied in colony morphology were purified and characterized according to substrate utilization profiles and growth condition (i.e., aerobic vs. hypoxic) specificity. Strains with distinct characteristics were obtained using benzene compared with those isolated on toluene or ethylbenzene. In general, isolates obtained from direct selection on benzene minimal medium grew well under aerobic conditions but poorly under hypoxic conditions, whereas many ethylbenzene isolates grew well under both incubation conditions. We conclude that the conditions of isolation, rather than the substrate used, will influence the apparent characteristic substrate utilization range of the isolates obtained. Also, using an enrichment culture technique, we isolated a strain ofPseudomonas fluorescens, designated CFS215, which exhibited nitrate dependent degradation of aromatic hydrocarbons under hypoxic conditions.Abbreviations BTEX benzene, toluene, ethylbenzene, andp-xylene - HPLC high performance liquid chromatography - GAC granular activated carbon     

非编码小RNA对细菌毒力及耐药性的调控作用研究进展

近年来的研究发现,细菌非编码小RNA (small non-coding RNA, sRNA)对其不同生理进程起到了重要的调控作用。随着大量sRNA被发现并鉴定,细菌sRNA的功能被逐步阐明,其可在转录后水平广泛调控细菌的生理代谢、毒力及耐药性等。本文综述了sRNA对细菌毒力和耐药性调控作用的研究进展,对揭示细菌转录后水平毒力及耐药性调控机制具有一定意义。     

库木塔格沙漠土壤细菌多样性及具有群体感应抑制活性放线菌筛选

【背景】群体感应抑制剂(quorum sensing inhibitor,QSI)作为抗生素潜在替代品,可有效降低致病菌传染性和毒性。沙漠土壤蕴藏着丰富的放线菌资源,是挖掘群体感应抑制剂的重要来源。【目的】解析库木塔格沙漠土壤细菌群落多样性,筛选并挖掘群体感应抑制活性放线菌资源。【方法】采用Illumina Nova Seq高通量测序技术揭示库木塔格沙漠土壤细菌群落组成,利用可培养方法进行土壤放线菌分离和鉴定;选用紫色杆菌CV026模型筛选群体感应抑制活性放线菌,并对其功能特性进行初步评价。【结果】Illumina Nova Seq高通量测序结果显示,样品土壤细菌涉及23门96目150属,优势菌门为变形菌门(Proteobacteria,61%)、放线菌门(Actinobacteria,28%),其中分枝杆菌属(Mycobacterium)为放线菌门最优势菌属(87.3%),其次为红球菌属(Rhodococcus,6.8%)和丙酸杆菌属(Cutibacterium,0.9%)。可培养方法共分离到108株放线菌,归属9科10属,其中优势菌属为链霉菌属(Streptomyces),占65....     

亮斑扁角水虻幼虫酶解制备蛋白胨工艺优化及蛋白胨性质

【背景】用于餐厨垃圾等有机废弃物处理的亮斑扁角水虻(Hermetia illucens, HI)含有丰富的氨基酸和营养物质,是一种优质、经济的蛋白来源。【目的】利用亮斑扁角水虻幼虫(Hermetia illucens larvae, HIL)制备蛋白胨用于细菌培养,为亮斑扁角水虻的应用方式提供新的思路。【方法】以亮斑扁角水虻幼虫为原料,利用单因素试验确定最佳酶解条件,对比分析HIL蛋白胨和市售胰蛋白胨的基本性质和功能性状,并进行细菌培养、生物化学试验,利用两种蛋白胨分别培养大肠杆菌(Escherichia coli) ATCC 25922模式细菌并通过生长动力学分析评价应用效果。【结果】制备HIL蛋白胨的最佳酶解工艺为按1.3%(质量分数)添加复合酶(胰酶:碱性蛋白酶质量比为1:1),在pH 7.0、54℃条件下反应4 h,此时HIL的水解度为(19.34±0.15)%。HIL蛋白胨和市售胰蛋白胨的功能性状和生物化学试验差异不显著(P>0.05)。大肠杆菌ATCC25922在HIL蛋白胨培养基中生长的X_max和λ分别为6.44和2.45,在市售胰蛋白胨生长的...     

一株红球菌属细菌LV4在高盐条件下的吡啶降解特性

由微生物介导的吡啶降解技术是解决高盐吡啶环境污染的经济有效方法之一,开发具有吡啶降解性能且能够耐受高盐分的微生物是该类研究的重要前提。本研究从山西太原钢铁公司焦化废水处理厂活性污泥中分离培养了一株耐盐吡啶降解菌,通过菌落形态和16S rDNA基因系统发育分析,鉴定其为红球菌属(Rhodococcus sp.)的细菌。耐盐性实验结果表明,菌株LV4能够在0%–6%盐度范围内生长,并完全降解初始浓度为500 mg/L的吡啶;但当盐度高于4%时,菌株LV4因其生长变缓而导致吡啶完全降解时间明显延长。扫描电镜结果显示,高盐环境会使菌株LV4的菌体细胞分裂变慢,诱导细胞表面分泌更多的颗粒状胞外聚合物(extracellular polymeric substance, EPS)。当盐度不高于4%时菌株LV4主要依靠EPS中蛋白含量的增加来响应高盐环境的冲击。单因素实验优化发现,菌株LV4在盐度为4%的高盐环境中降解吡啶的最佳条件为温度30℃、pH 7.0、转速为120 r/min (DO 10.30 mg/L)。最优条件下菌株LV4对于初始浓度为500 mg/L的吡啶,在经过12 h的适应期后,...     

多药耐药菌感染重症肺炎患者预后的危险因素分析

摘要 目的：探讨多药耐药菌感染重症肺炎患者预后的危险因素。方法：选取本院2019年5月至2022年5月收治的198例重症肺炎患者,根据患者在ICU住院期间是否死亡分为存活组（121例）和死亡组（77例）。对重症肺炎患者多药耐药菌感染情况,多药耐药G⁺耐药情况,多药耐药G^-耐药情况进行分析,对影响多药耐药菌感染重症肺炎患者预后危险因素的单因素分析,将单因素分析中差异有统计学意义的变量进行多因素Logistic回归分析,筛选影响多药耐药菌感染重症肺炎患者预后的危险因素。结果：198例重症肺炎患者中,多药耐药菌感染患者60例,占比30.30 %,共分离出病原菌290株,其中多药耐药菌65株,占比22.41 %,其中占比比较高的有鲍曼不动杆菌（23.08 %）、铜绿假单胞菌（20.00 %）、金黄色葡萄球菌（20.00 %）、肠炎克雷伯菌（10.77 %）;重症肺炎患者多药耐药G⁺对青霉素、克林霉素、红霉素等具有较高的耐药性,而对万古霉素、替考拉宁、替加环素较为敏感;重症肺炎患者多重耐药G^-对多种抗菌药物均表现出耐药性,其中对头孢他啶、头孢吡肟等具有较高的耐药性;单因素分析结果显示,死亡组患者中男性、年龄≥70岁、APACHEⅡ评分≥26分、有创通气的患者占比显著高于存活组,碳青霉烯类抗生素使用的患者占比显著低于存活组（均P<0.05）,两组患者肺部基础疾病、脑血管疾病、高血压、联合使用其他抗生素的占比,以及两组患者机械通气时间比较无差异（均P>0.05）;纳入多因素非条件Logistic回归模型分析显示,男性、年龄≥70岁、APACHEⅡ评分≥26分、有创通气为多药耐药菌感染重症肺炎患者预后的危险因素（OR=1.568、1.203、2.812、1.674,均P<0.05）,而碳青霉烯类抗生素使用是多药耐药菌感染重症肺炎患者预后的保护因素（OR=0.542,P<0.05）。结论：多药耐药菌感染重症肺炎患者的主要菌株为鲍曼不动杆菌,且男性、年龄≥70岁、APACHEⅡ评分≥26分、有创通气为多药耐药菌感染重症肺炎患者预后的危险因素,而碳青霉烯类抗生素使用是多药耐药菌感染重症肺炎患者预后的保护因素。     

Effects of Caenorhabditis elegans (Nematoda: Rhabditidae) on the spread of the bacterium Pseudomonas tolaasii in mushrooms (Agaricus bisporus)

The effects of mass-produced saprobic rhabditid nematodes, Caenorhabditis elegans on the spread of the bacterial blotch pathogen, Pseudomonas tolaasii , were studied in mushroom growth chambers. C. elegans significantly reduced the intensity of blotch on sporophores. Repeated isolations of the bacterial flora from the gut of C. elegans recovered from mushroom sporophores during cropping, revealed the presence of Pseudomonas fluorescens biovar reactans . All the isolates of P. fluorescens biovar reactans isolated from nematodes were antagonists of P. tolaasii .
C. elegans produced much larger populations in monoxenic cultures with P. fluorescens biovar reactans than with P. tolaasii . It is suggested that as C. elegans selects P. fluorescens biovar reactans rather than P. tolaasii as a food substrate it probably spreads the antagonist in the mushroom crop and may contribute to the control of bacterial blotch.