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41.
Aims: To determine whether chelated sources of ferric iron were efficient inhibitors of biofilm formation in Pseudomonas aeruginosa and might be suitable for drug delivery to the lungs of cystic fibrosis (CF) patients via nebulization.
Methods and Results: The response of P. aeruginosa biofilms to elevated iron concentrations in the form of eight structurally varied iron chelators in a microtitre plate assay for biofilm production was examined in the lab. Among these iron chelates, picolinic acid and acetohydroxamic acid-chelated iron were able to effectively thwart biofilm production in P. aeruginosa PA14 and in 20 clinical isolates of P. aeruginosa from a local hospital. The chelated iron sources showed excellent distribution in an Anderson cascade impactor model of particle size distribution in the human lung.
Conclusions: Ferric picolinate and ferric acetohydroxamate are effective anti-biofilm compounds against both lab and clinical strains of P. aeruginosa and are readily nebulized into particles of suitable size for lung delivery.
Significance and Impact of the Study: The data herein serve both to solidify the growing base of literature correlating high iron levels with biofilm inhibition in P. aeruginosa and to highlight the potential of these chelators as nebulized agents to combat biofilms of P. aeruginosa in CF patients. 相似文献
Methods and Results: The response of P. aeruginosa biofilms to elevated iron concentrations in the form of eight structurally varied iron chelators in a microtitre plate assay for biofilm production was examined in the lab. Among these iron chelates, picolinic acid and acetohydroxamic acid-chelated iron were able to effectively thwart biofilm production in P. aeruginosa PA14 and in 20 clinical isolates of P. aeruginosa from a local hospital. The chelated iron sources showed excellent distribution in an Anderson cascade impactor model of particle size distribution in the human lung.
Conclusions: Ferric picolinate and ferric acetohydroxamate are effective anti-biofilm compounds against both lab and clinical strains of P. aeruginosa and are readily nebulized into particles of suitable size for lung delivery.
Significance and Impact of the Study: The data herein serve both to solidify the growing base of literature correlating high iron levels with biofilm inhibition in P. aeruginosa and to highlight the potential of these chelators as nebulized agents to combat biofilms of P. aeruginosa in CF patients. 相似文献
42.
Zhanyong Wang Jing Zhang Tingting Su Zhuanfei Guan Man Ji 《Preparative biochemistry & biotechnology》2013,43(3):278-286
Saccharomyces cerevisiae LN-17 was selected from 26 kinds of primary yeast strains that belong to different genera and species. The iron- and zinc-enriched capability of strain LN-17 was higher than the others. The highest iron and zinc contents of the strain were obtained when the strain grew up under the following conditions: The strain was incubated (5%, v/v) in 50 mL wort medium (pH 6.0) with 100 mg/L Fe ion and 120 mg/L Zn ion. The medium was loaded into a 250-mL Erlenmeyer flask and shaken in a rotary shaker (200 rpm) at 30°C for 60 h. Ferrous sulfate and zinc sulfate were chosen as the source of Fe and Zn. The Fe and Zn contents of the dry cells were determined by atomic absorption spectrum analysis. Under the optimized cultivation conditions, the Fe and Zn contents reached 7.854 mg/g dry cells and 4.976 mg/g dry cells. 相似文献
43.
The main aim of this work was to assess the multi-task role of ferritin(Ft)in the oxidative metabolism of soybean(Glycine max).Soybean seeds incubated for 24 h yielded 41 ± 5 μg Ft/g fresh weight.The rate of in vitro incorporation of iron(Fe)into Ft was tested by supplementing the reaction medium with physiological Fe chelators.The control rate,observed in the presence of 100 μM Fe,was not significantly different from the values observed in the presence of 100 μM Fe-his.However,it was significantly higher in the presence of 100 μM Fe-citrate(approximately 4.5-fold)or of 100 μM Fe-ATP(approximately 14-fold).Moreover,a substantial decrease in the Trp-dependent fluorescence of the Ft protein was determined during Fe uptake from Fe-citrate,as compared with the control.On the other hand,Ft addition to homogenates from soybean embryonic axes reduced endogenously generated ascorbyl radical,according to its capacity for Fe uptake.The data presented here suggest that Ft could be involved in the generation of free radicals,such as hydroxyl radical,by Fe-catalyzed reactions.Moreover,the scavenging of these radicals by Ft itself could then lead to protein damage.However,Ft could also prevent cellular damage by the uptake of catalytically active Fe. 相似文献
44.
Hydrogen sulfide (H2S) is the most undesirable inorganic gas in biogas from anaerobic digestion (AD). However, H2S production in AD is complex and understanding of its processes is still limited. This study performed six controlled batch anaerobic co-digestion experiments to investigate H2S production. Materials were obtained from four field anaerobic digester systems and co-digestion feedstocks from agroindustry. An additional precipitation experiment was conducted to further examine H2S production dynamics. Digesters containing highly soluble, carbohydrate-based wastes had a high H2S final specific production (FSP) value. Additionally, the FSP values were negatively correlated with the initial Fe(II):S ratios in the digester liquid of the batch tests. The precipitation experiment indicated that iron sulfide precipitation was preferred in the presence of an anaerobic community. The H2S production as a time series was successfully modeled using a generalized additive model (R2 > 0.82). This study revealed that sulfate, phosphorus, and iron concentrations are important predictors and potential inhibitors of H2S production in AD. Further examination of real-time H2S modeling in AD is warranted. 相似文献
45.
Treatment of Biogas Produced in Anaerobic Reactors for Domestic Wastewater: Odor Control and Energy/Resource Recovery 总被引:1,自引:0,他引:1
Adalberto Noyola Juan Manuel Morgan-Sagastume Jorge E. López-Hernández 《Reviews in Environmental Science and Biotechnology》2006,5(1):93-114
Anaerobic municipal wastewater treatment in developing countries has important potential applications considering their huge
lack of sanitation infrastructure and their advantageous climatic conditions. At present, among the obstacles that this technology
encounters, odor control and biogas utilization or disposal should be properly addressed. In fact, in most of small and medium
size anaerobic municipal treatment plants, biogas is just vented, transferring pollution from water to the atmosphere, contributing
to the greenhouse gas inventory. Anaerobic municipal sewage treatment should not be considered as an energy producer, unless
a significant wastewater flow is treated. In these cases, more than half of the methane produced is dissolved and lost in
the effluent so yield values will be between 0.08 and 0.18 N m3 CH4/kg COD removed. Diverse technologies for odor control and biogas cleaning are currently available. High pollutant concentrations
may be treated with physical-chemical methods, while biological processes are used mainly for odor control to prevent negative
impacts on the treatment facilities or nearby areas. In general terms, biogas treatment is accomplished by physico-chemical
methods, scrubbing being extensively used for H2S and CO2 removal. However, dilution (venting) has been an extensive disposal method in some small- and medium-size anaerobic plants
treating municipal wastewaters. Simple technologies, such as biofilters, should be developed in order to avoid this practice,
matching with the simplicity of anaerobic wastewater treatment processes. In any case, design and specification of biogas
handling system should consider safety standards. Resource recovery can be added to anaerobic sewage treatment if methane
is used as electron donor for denitrification and nitrogen control purposes. This would result in a reduction of operational
cost and in an additional advantage for the application of anaerobic sewage treatment. In developing countries, biogas conversion
to energy may apply for the clean development mechanism (CDM) of the Kyoto Protocol. This would increase the economic feasibility
of the project through the marketing of certified emission reductions (CERs). 相似文献
46.
Background and Aims
Anoxic conditions are seldom considered in root iron plaque induction of wetland plants in hydroponic experiments, but such conditions are essential for root iron plaque formation in the field. Although ferrous ion availability and root radial oxygen loss capacity are generally taken into account, neglect of anoxic conditions in root iron plaque formation might lead to an under- or over-estimate of their functional effects, such as blocking toxic metal uptake. This study hypothesized that anoxic conditions would influence root iron plaque formation characteristics and translocation of Zn and Cd by rice seedlings.Methods
A hydroponic culture was used to grow rice seedlings and a non-disruptive approach for blocking air exchange between the atmosphere and the induction solution matrix was applied for root iron plaque formation, namely flushing the headspace of the induction solution with N2 during root iron plaque induction. Zn and Cd were spiked into the solution after root iron plaque formation, and translocation of both metals was determined.Key Results
Blocking air exchange between the atmosphere and the nutrient solution by N2 flushing increased root plaque Fe content by between 11 and 77 % (average 31 %). The N2 flushing treatment generated root iron plaques with a smoother surface than the non-N2 flushing treatment, as observed by scanning electron microscopy, but Fe oxyhydroxides coating the rice seedling roots were amorphous. The root iron plaques sequestrated Zn and Cd and the N2 flushing enhanced this effect by approx. 17 % for Zn and 71 % for Cd, calculated by both single and combined additions of Zn and Cd.Conclusions
Blocking of oxygen intrusion into the nutrient solution via N2 flushing enhanced root iron plaque formation and increased Cd and Zn sequestration in the iron plaques of rice seedlings. This study suggests that hydroponic studies that do not consider redox potential in the induction matrices might lead to an under-estimate of metal sequestration by root iron plaques of wetland plants. 相似文献47.
48.
【背景】目前对水库水体污染原因的研究往往专注于水体的富营养化、pH值、溶解氧、氨氮、菌落总数指标的变化,而重金属含量与环境因子的季节性变化相关性分析研究较少,同时对于典型季节原位微生物种群的多样性差异研究尚未见报道。【目的】研究浙江省台州市长潭水库底部水中正二价金属离子(二价锰离子Mn2+;二价铁离子Fe2+)浓度与不同环境因子的季节性变化规律,并对其相关性进行分析;富集平水期(2月)和丰水期(8月)水库底部水体中功能微生物菌群,分析其种类和丰度的差异。【方法】分别检测12个月的水库水Mn2+和Fe2+浓度及多种环境因子(水体溶解氧浓度、pH值、总磷浓度、浊度、水库环境温度及降水量),过滤并富集培养水库底部水体的功能微生物菌群,对其16S rRNA基因V3-V4区测序并分析其菌群结构。【结果】长潭水库水中Mn2+和Fe2+浓度呈季节性变化,每年的春夏交替季节水体中铁锰含量从零开始慢慢升高,至夏秋高温季节水体中Mn2+和Fe2+浓度达到最高值,然后慢慢降低,至秋末冬初检测不到含量。在检测的多种环境因子中,水体溶解氧浓度、水库环境温度及降水量呈明显的季节性规律变化。Mn2+和Fe2+浓度与温度、降水量和浊度有正相关性,与溶解氧浓度、pH值和总磷浓度有负相关性,其中在正负相关性分析中两种金属离子的浓度与溶解氧浓度的相关性最强,其次是环境温度及降水量。丰水期和平水期中富集获得的功能微生物菌群的种类和丰度差异很大,从属水平上分类,丰水期时菌群只包含不动杆菌(Acinetobacter)和鲑色沉积物杆状菌(Sediminibacterium)这2个属的菌株,含量各占约50%;平水期时菌群则主要由杆菌属(Bacillariophyta) (47.62%)和Limnohabitans(9.52%)等9个属的菌株构成。富集获得的平水期和丰水期的两个可培养的菌群均具有去除水库水中Mn2+的功能,去除率分别约为35.9%和11.4%。【结论】长潭水库底部水体中Mn2+和Fe2+浓度与不同环境因子均呈季节性规律变化,它们之间呈现不同的正负相关性,丰水期和平水期的功能微生物菌群结构差异很大。本研究为利用微生物进行重金属污染水体的治理储备了微生物资源,为实现国家“美丽乡村”的建设目标提供一定的参考价值。 相似文献
49.
Microbial adaptation to iron: a possible role of phosphatidylethanolamine in iron mineral deposition
Pseudomonas fluorescens multiplied in a minimal mineral medium supplemented with iron(III) (5 mm) complexed to citrate, the sole source of carbon, with no apparent diminution in cellular mass. Atomic absorption studies of different cellular fractions and supernatant at various growth intervals revealed that the trivalent metal was initially internalized. At approximately 41 h of incubation, the soluble cellular extract contained 9.5% of the iron originally found in the growth medium. However, as bacterial multiplication progressed, most of the metal was deposited as an extracellular insoluble gelatinous residue. Phosphatidylethanolamine appeared to be an important organic constituent of this precipitate. X-ray fluorescence and diffraction studies revealed that iron(III) was deposited as amorphous hydrated oxide. Scanning electron microscopy and energy dispersive X-ray microanalysis of the pellet aided in the identification of irregular shaped bodies rich in iron and oxygen that were associated with carbon-containing elongated structures. Examination of the bacterial cells by a transmission electron microscope equipped with an electron energy loss spectrometer indicated the deposition of iron within the cells. 相似文献
50.